f5.bigip.tm.cm

Module contents

BIG-IP® cluster module

REST URI
http://localhost/mgmt/tm/cm/
GUI Path
Device Management
REST Kind
tm:cm:*

Submodule List

device BIG-IP® cluster device submodule
device_group BIG-IP® cluster device-group submodule
sync_status Directory: cm module: sync-status.
traffic_group BIG-IP® cluster traffic-group submodule
trust
trust_domain BIG-IP® cluster trust-domain submodule
class f5.bigip.tm.cm.Cm(cm)[source]

Bases: f5.bigip.resource.OrganizingCollection, f5.bigip.mixins.CommandExecutionMixin

BIG-IP® Cluster Organizing Collection.

create(**kwargs)

Implement this by overriding it in a subclass of Resource

Raises:InvalidResource
delete(**kwargs)

Implement this by overriding it in a subclass of Resource

Raises:InvalidResource
exec_cmd(command, **kwargs)

Wrapper method that can be changed in the inheriting classes.

get_collection(**kwargs)

Call to obtain a list of the reference dicts in the instance items

Returns:List of self.items
modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

Submodules

device

BIG-IP® cluster device submodule

REST URI
http://localhost/mgmt/tm/cm/device/
GUI Path
Device Management --> Devices
REST Kind
tm:cm:device:*
class f5.bigip.tm.cm.device.Devices(cm)[source]

Bases: f5.bigip.resource.Collection, f5.bigip.mixins.CommandExecutionMixin

BIG-IP® cluster devices collection.

create(**kwargs)

Implement this by overriding it in a subclass of Resource

Raises:InvalidResource
delete(**kwargs)

Implement this by overriding it in a subclass of Resource

Raises:InvalidResource
exec_cmd(command, **kwargs)

Wrapper method that can be changed in the inheriting classes.

get_collection(**kwargs)

Get an iterator of Python Resource objects that represent URIs.

The returned objects are Pythonic Resource`s that map to the most recently `refreshed state of uris-resources published by the device. In order to instantiate the correct types, the concrete subclass must populate its registry with acceptable types, based on the kind field returned by the REST server.

Note

This method implies a single REST transaction with the Collection subclass URI.

Raises:UnregisteredKind
Returns:list of reference dicts and Python Resource objects
modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

class f5.bigip.tm.cm.device.Device(device_s)[source]

Bases: f5.bigip.resource.Resource

BIG-IP® cluster device object.

create(**kwargs)

Create the resource on the BIG-IP®.

Uses HTTP POST to the collection URI to create a resource associated with a new unique URI on the device.

Parameters:kwargs – All the key-values needed to create the resource

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.post method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: self - A python object that represents the object’s

configuration and state on the BIG-IP®.
delete(**kwargs)

Delete the resource on the BIG-IP®.

Uses HTTP DELETE to delete the resource on the BIG-IP®.

After this method is called, and status_code 200 response is received instance.__dict__ is replace with {'deleted': True}

Parameters:kwargs – The only current use is to pass kwargs to the requests

API. If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.delete method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

exists(**kwargs)

Check for the existence of the named object on the BIG-IP

Sends an HTTP GET to the URI of the named object and if it fails with a :exc:~requests.HTTPError` exception it checks the exception for status code of 404 and returns False in that case.

If the GET is successful it returns True.

For any other errors are raised as-is.

Parameters:kwargs – Keyword arguments required to get objects

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.get method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: bool – The objects exists on BIG-IP® or not. :raises: requests.HTTPError, Any HTTP error that was not status

code 404.
load(**kwargs)

Load an already configured service into this instance.

This method uses HTTP GET to obtain a resource from the BIG-IP®.

Parameters:kwargs – typically contains “name” and “partition”

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.get method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: a Resource Instance (with a populated _meta_data[‘uri’])

modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

device_group

BIG-IP® cluster device-group submodule

REST URI
http://localhost/mgmt/tm/cm/device-group
GUI Path
Device Management --> Device Groups
REST Kind
tm:cm:device-group:*
class f5.bigip.tm.cm.device_group.Device_Groups(cm)[source]

Bases: f5.bigip.resource.Collection

BIG-IP® cluster device-groups collection.

create(**kwargs)

Implement this by overriding it in a subclass of Resource

Raises:InvalidResource
delete(**kwargs)

Implement this by overriding it in a subclass of Resource

Raises:InvalidResource
get_collection(**kwargs)

Get an iterator of Python Resource objects that represent URIs.

The returned objects are Pythonic Resource`s that map to the most recently `refreshed state of uris-resources published by the device. In order to instantiate the correct types, the concrete subclass must populate its registry with acceptable types, based on the kind field returned by the REST server.

Note

This method implies a single REST transaction with the Collection subclass URI.

Raises:UnregisteredKind
Returns:list of reference dicts and Python Resource objects
modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

class f5.bigip.tm.cm.device_group.Device_Group(device_groups)[source]

Bases: f5.bigip.resource.Resource

BIG-IP® cluster device-group resource

sync_to()[source]

Wrapper method that synchronizes configuration to DG.

Executes the containing object’s cm exec_cmd() method to sync the configuration TO the device-group.

:note:: Both sync_to, and sync_from methods are convenience
methods which usually are not what this SDK offers. It is best to execute config-sync with the use of exec_cmd() method on the cm endpoint.
sync_from()[source]

Wrapper method that synchronizes configuration from DG.

Executes the containing object’s cm exec_cmd() method to sync the configuration FROM the device-group.

:note:: Both sync_to, and sync_from methods are convenience
methods which usually are not what this SDK offers. It is best to execute config-sync with the use of exec_cmd() method on the cm endpoint.
create(**kwargs)

Create the resource on the BIG-IP®.

Uses HTTP POST to the collection URI to create a resource associated with a new unique URI on the device.

Parameters:kwargs – All the key-values needed to create the resource

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.post method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: self - A python object that represents the object’s

configuration and state on the BIG-IP®.
delete(**kwargs)

Delete the resource on the BIG-IP®.

Uses HTTP DELETE to delete the resource on the BIG-IP®.

After this method is called, and status_code 200 response is received instance.__dict__ is replace with {'deleted': True}

Parameters:kwargs – The only current use is to pass kwargs to the requests

API. If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.delete method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

exists(**kwargs)

Check for the existence of the named object on the BIG-IP

Sends an HTTP GET to the URI of the named object and if it fails with a :exc:~requests.HTTPError` exception it checks the exception for status code of 404 and returns False in that case.

If the GET is successful it returns True.

For any other errors are raised as-is.

Parameters:kwargs – Keyword arguments required to get objects

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.get method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: bool – The objects exists on BIG-IP® or not. :raises: requests.HTTPError, Any HTTP error that was not status

code 404.
load(**kwargs)

Load an already configured service into this instance.

This method uses HTTP GET to obtain a resource from the BIG-IP®.

Parameters:kwargs – typically contains “name” and “partition”

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.get method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: a Resource Instance (with a populated _meta_data[‘uri’])

modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

class f5.bigip.tm.cm.device_group.Devices_s(device_group)[source]

Bases: f5.bigip.resource.Collection

BIG-IP® cluster devices-group devices subcollection.

create(**kwargs)

Implement this by overriding it in a subclass of Resource

Raises:InvalidResource
delete(**kwargs)

Implement this by overriding it in a subclass of Resource

Raises:InvalidResource
get_collection(**kwargs)

Get an iterator of Python Resource objects that represent URIs.

The returned objects are Pythonic Resource`s that map to the most recently `refreshed state of uris-resources published by the device. In order to instantiate the correct types, the concrete subclass must populate its registry with acceptable types, based on the kind field returned by the REST server.

Note

This method implies a single REST transaction with the Collection subclass URI.

Raises:UnregisteredKind
Returns:list of reference dicts and Python Resource objects
modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

class f5.bigip.tm.cm.device_group.Devices(devices_s)[source]

Bases: f5.bigip.resource.Resource

BIG-IP® cluster devices-group devices subcollection resource.

create(**kwargs)

Create the resource on the BIG-IP®.

Uses HTTP POST to the collection URI to create a resource associated with a new unique URI on the device.

Parameters:kwargs – All the key-values needed to create the resource

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.post method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: self - A python object that represents the object’s

configuration and state on the BIG-IP®.
delete(**kwargs)

Delete the resource on the BIG-IP®.

Uses HTTP DELETE to delete the resource on the BIG-IP®.

After this method is called, and status_code 200 response is received instance.__dict__ is replace with {'deleted': True}

Parameters:kwargs – The only current use is to pass kwargs to the requests

API. If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.delete method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

exists(**kwargs)

Check for the existence of the named object on the BIG-IP

Sends an HTTP GET to the URI of the named object and if it fails with a :exc:~requests.HTTPError` exception it checks the exception for status code of 404 and returns False in that case.

If the GET is successful it returns True.

For any other errors are raised as-is.

Parameters:kwargs – Keyword arguments required to get objects

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.get method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: bool – The objects exists on BIG-IP® or not. :raises: requests.HTTPError, Any HTTP error that was not status

code 404.
load(**kwargs)

Load an already configured service into this instance.

This method uses HTTP GET to obtain a resource from the BIG-IP®.

Parameters:kwargs – typically contains “name” and “partition”

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.get method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: a Resource Instance (with a populated _meta_data[‘uri’])

modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

sync_status

Directory: cm module: sync-status.

REST URI
https://localhost/mgmt/tm/cm/sync-status?ver=11.6.0
GUI Path
XXX
REST Kind
tm:cm:sync-status:*
class f5.bigip.tm.cm.sync_status.Sync_Status(cm)[source]

Bases: f5.bigip.resource.UnnamedResource

BIG-IP® cluster resource

create(**kwargs)

Create is not supported for unnamed resources

Raises:UnsupportedMethod
delete(**kwargs)

Delete is not supported for unnamed resources

Raises:UnsupportedMethod
modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

traffic_group

BIG-IP® cluster traffic-group submodule

REST URI
http://localhost/mgmt/tm/cm/traffic-group
GUI Path
Device Management --> Traffic Groups
REST Kind
tm:cm:traffic-group:*
class f5.bigip.tm.cm.traffic_group.Traffic_Groups(cm)[source]

Bases: f5.bigip.resource.Collection

BIG-IP® cluster traffic-group collection

create(**kwargs)

Implement this by overriding it in a subclass of Resource

Raises:InvalidResource
delete(**kwargs)

Implement this by overriding it in a subclass of Resource

Raises:InvalidResource
get_collection(**kwargs)

Get an iterator of Python Resource objects that represent URIs.

The returned objects are Pythonic Resource`s that map to the most recently `refreshed state of uris-resources published by the device. In order to instantiate the correct types, the concrete subclass must populate its registry with acceptable types, based on the kind field returned by the REST server.

Note

This method implies a single REST transaction with the Collection subclass URI.

Raises:UnregisteredKind
Returns:list of reference dicts and Python Resource objects
modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

class f5.bigip.tm.cm.traffic_group.Traffic_Group(traffic_groups)[source]

Bases: f5.bigip.resource.Resource

BIG-IP® cluster traffic-group resource

create(**kwargs)

Create the resource on the BIG-IP®.

Uses HTTP POST to the collection URI to create a resource associated with a new unique URI on the device.

Parameters:kwargs – All the key-values needed to create the resource

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.post method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: self - A python object that represents the object’s

configuration and state on the BIG-IP®.
delete(**kwargs)

Delete the resource on the BIG-IP®.

Uses HTTP DELETE to delete the resource on the BIG-IP®.

After this method is called, and status_code 200 response is received instance.__dict__ is replace with {'deleted': True}

Parameters:kwargs – The only current use is to pass kwargs to the requests

API. If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.delete method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

exists(**kwargs)

Check for the existence of the named object on the BIG-IP

Sends an HTTP GET to the URI of the named object and if it fails with a :exc:~requests.HTTPError` exception it checks the exception for status code of 404 and returns False in that case.

If the GET is successful it returns True.

For any other errors are raised as-is.

Parameters:kwargs – Keyword arguments required to get objects

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.get method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: bool – The objects exists on BIG-IP® or not. :raises: requests.HTTPError, Any HTTP error that was not status

code 404.
load(**kwargs)

Load an already configured service into this instance.

This method uses HTTP GET to obtain a resource from the BIG-IP®.

Parameters:kwargs – typically contains “name” and “partition”

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.get method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: a Resource Instance (with a populated _meta_data[‘uri’])

modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

trust

class f5.bigip.tm.cm.trust.Add_To_Trust(cm)[source]

Bases: f5.bigip.resource.UnnamedResource, f5.bigip.mixins.ExclusiveAttributesMixin, f5.bigip.mixins.CommandExecutionMixin

BIG-IP® Add-To-Trust resource

Use this object to set or overwrite device trust

create(**kwargs)

Create is not supported for unnamed resources

Raises:UnsupportedMethod
delete(**kwargs)

Delete is not supported for unnamed resources

Raises:UnsupportedMethod
exec_cmd(command, **kwargs)

Wrapper method that can be changed in the inheriting classes.

modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

class f5.bigip.tm.cm.trust.Remove_From_Trust(cm)[source]

Bases: f5.bigip.resource.UnnamedResource, f5.bigip.mixins.CommandExecutionMixin

BIG-IP®« Remove-From-Trust resource

Use this object to remove device trust

Note

This will only remove trust setting on a single BIG-IP®. Full trust removal requires that the operation is carried out on both target devices

create(**kwargs)

Create is not supported for unnamed resources

Raises:UnsupportedMethod
delete(**kwargs)

Delete is not supported for unnamed resources

Raises:UnsupportedMethod
exec_cmd(command, **kwargs)

Wrapper method that can be changed in the inheriting classes.

modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

trust_domain

BIG-IP® cluster trust-domain submodule

REST URI
http://localhost/mgmt/tm/cm/trust-domain
GUI Path
Device Management --> Device Trust
REST Kind
tm:cm:device-group:*
class f5.bigip.tm.cm.trust_domain.Trust_Domains(cm)[source]

Bases: f5.bigip.resource.Collection

BIG-IP® cluster trust-domain collection.

create(**kwargs)

Implement this by overriding it in a subclass of Resource

Raises:InvalidResource
delete(**kwargs)

Implement this by overriding it in a subclass of Resource

Raises:InvalidResource
get_collection(**kwargs)

Get an iterator of Python Resource objects that represent URIs.

The returned objects are Pythonic Resource`s that map to the most recently `refreshed state of uris-resources published by the device. In order to instantiate the correct types, the concrete subclass must populate its registry with acceptable types, based on the kind field returned by the REST server.

Note

This method implies a single REST transaction with the Collection subclass URI.

Raises:UnregisteredKind
Returns:list of reference dicts and Python Resource objects
modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!

class f5.bigip.tm.cm.trust_domain.Trust_Domain(trust_domains)[source]

Bases: f5.bigip.resource.Resource

BIG-IP® cluster trust-domain resource

create(**kwargs)[source]

Create is not supported for trust domains.

Raises:UnsupportedOperation
delete()[source]

Delete is not supported for trust domains.

Raises:UnsupportedOperation
exists(**kwargs)

Check for the existence of the named object on the BIG-IP

Sends an HTTP GET to the URI of the named object and if it fails with a :exc:~requests.HTTPError` exception it checks the exception for status code of 404 and returns False in that case.

If the GET is successful it returns True.

For any other errors are raised as-is.

Parameters:kwargs – Keyword arguments required to get objects

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.get method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: bool – The objects exists on BIG-IP® or not. :raises: requests.HTTPError, Any HTTP error that was not status

code 404.
load(**kwargs)

Load an already configured service into this instance.

This method uses HTTP GET to obtain a resource from the BIG-IP®.

Parameters:kwargs – typically contains “name” and “partition”

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.get method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS! :returns: a Resource Instance (with a populated _meta_data[‘uri’])

modify(**patch)

Modify the configuration of the resource on device based on patch

raw

Display the attributes that the current object has and their values.

Returns:A dictionary of attributes and their values
refresh(**kwargs)

Use this to make the device resource be represented by self.

This method makes an HTTP GET query against the device service. This method is run for its side-effects on self. If successful the instance attribute __dict__ is replaced with the dict representing the device state. To figure out what that state is, run a subsequest query of the object like this: As with all CURDLE methods use a “requests_params” dict to pass parameters to requests.session.HTTPMETHOD. See test_requests_params.py for an example. >>> resource_obj.refresh() >>> print(resource_obj.raw)

update(**kwargs)

Update the configuration of the resource on the BIG-IP®.

This method uses HTTP PUT alter the resource state on the BIG-IP®.

The attributes of the instance will be packaged as a dictionary. That dictionary will be updated with kwargs. It is then submitted as JSON to the device.

Various edge cases are handled: * read-only attributes that are unchangeable are removed

Parameters:kwargs – keys and associated values to alter on the device

NOTE: If kwargs has a ‘requests_params’ key the corresponding dict will be passed to the underlying requests.session.put method where it will be handled according to that API. THIS IS HOW TO PASS QUERY-ARGS!