There are a few critical concepts that will make understanding and using the cbapi easier. These concepts are explained below, and also covered in a slide deck presented at the Carbon Black regional User Exchanges in 2016. You can see the slide deck here.
At a high level, the cbapi tries to represent data in Cb Response or Cb Protection as Python objects. If you’ve worked with SQL Object-relational Mapping (ORM) frameworks before, then this structure may seem familiar – cbapi was designed to operate much like an ORM such as SQLAlchemy or Ruby’s ActiveRecord. If you haven’t worked with one of these libraries, don’t worry! The concepts will become clear after a little practice.
Everything in cbapi is represented in terms of “Model Objects”. A Model Object in cbapi represents a single instance
of a specific type of data in Cb Response or Protection. For example, a process document from Cb Response (as seen
on an Analyze Process page in the Web UI) is represented as a
cbapi.response.models.Process Model Object.
Similarly, a file instance in Cb Protection is represented as a
Once you have an instance of a Model Object, you can access all of the data contained within as Python properties.
For example, if you have a Process Model Object named
proc and you want to print its command line (which is stored
cmdline property), you would write the code:
This would automatically retrieve the
cmdline attribute of the process and print it out to your screen.
The data in Cb Response and Protection may change rapidly, and so a comprehensive list of valid properties is difficult to keep up-to-date. Therefore, if you are curious what properties are available on a specific Model Object, you can print that Model Object to the screen. It will dump all of the available properties and their current values. For example:
>>> print(binary) cbapi.response.models.Binary: -> available via web UI at https://cbserver/#binary/08D1631FAF39538A133D94585644D5A8 host_count : 1 digsig_result : Signed observed_filename : [u'c:\\windows\\syswow64\\appwiz.cpl'] product_version : 6.2.9200.16384 legal_copyright : © Microsoft Corporation. All rights reserved. digsig_sign_time : 2012-07-26T08:56:00Z orig_mod_len : 669696 is_executable_image : False is_64bit : False digsig_publisher : Microsoft Corporation ...
In this example,
orig_mod_len, etc. are all properties available on this Binary Model Object.
Sometimes, properties are not available on every instance of a Model Object. In this case, you can use the
method to retrieve the property, and return a default value if the property does not exist on the Model Object:
>>> print(binary.get("product_version", "<unknown>")) 6.2.9200.16384
In summary, Model Objects contain all the data associated with a specific type of API call. In this example, the
cbapi.response.models.Binary Model Object reflects all the data available via the
/api/v1/binary API route on a Cb Response server.
Joining Model Objects¶
Many times, there are relationships between different Model Objects. To make navigating these relationships easy,
cbapi provides special properties to “join” Model Objects together. For example, a
Model Object can reference the
associated with this Process.
In this case, special “join” properties are provided for you. When you use one of these properties, cbapi will automatically retrieve the associated Model Object, if necessary.
This capability may sound like a performance killer, causing many unnecessary API calls in order to gather this data. However, cbapi has extensive Model Object caching built-in, so multiple requests for the same data will be eliminated and an API request is only made if the cache does not already contain the requested data.
For example, to print the name of the Sensor Group assigned to the Sensor that ran a specific Process:
>>> print(proc.sensor.group.name) Default Group
Behind the scenes, this makes at most two API calls: one to obtain the Sensor associated with the Process, then another to obtain the Sensor Group that Sensor is part of. If either the Sensor or Sensor Group are already present in cbapi’s internal cache, the respective API call is not made and the data is returned directly from the internal cache.
In summary, some Model Objects have special “join” properties that provide easy access to related Model Objects. A list of “join” properties is included as part of the documentation for each Model Object.
Now that we’ve covered how to get data out of a specific Model Object, we now need to learn how to obtain Model Objects in the first place! To do this, we have to create and execute a Query. cbapi Queries use the same query syntax accepted by Cb Response or Protection’s APIs, and add a few little helpful features along the way.
To create a query in cbapi, use the
.select() method on the CbResponseAPI or CbProtectionAPI object. Pass the
Model Object type as a parameter to the
.select() call and optionally add filtering criteria with
Let’s start with a simple query for Cb Response:
>>> from cbapi.response import * >>> cb = CbResponseAPI() >>> cb.select(Process).where("process_name:cmd.exe") <cbapi.response.rest_api.Query object at 0x1068815d0>
This returns a prepared Query object with the query string
Note that at this point no API calls have been made. The cbapi Query objects are “lazy” in that they are only
evaluated when you use them. If you create a Query object but never attempt to retrieve any results, no API call is
ever made (I suppose that answers the age-old question; if a Query object is created, but nobody uses it, it does
not make a sound, after all).
What can we do with a Query? The first thing we can do is compose new Queries. Most Query types in cbapi can be
“composed”; that is, you can create a new query from more than one query string. This can be useful if you have a
“base” query and want to add additional filtering criteria. For example, if we take the query above and add the
additional filtering criteria
(filemod:*.exe or filemod:*.dll), we can write:
>>> base_query = cb.select(Process).where("process_name:cmd.exe") >>> composed_query = base_query.where("(filemod:*.exe or filemod:*.dll")
composed_query is equivalent to a query of
process_name:cmd.exe (filemod:*.exe or filemod:*.dll).
You can also add sorting criteria to a query:
>>> sorted_query = composed_query.sort("last_update asc")
Now when we execute the
sorted_query, the results will be sorted by the last server update time in ascending order.
Ok, now we’re ready to actually execute a query and retrieve the results. You can think of a Query as a kind of “infinite” Python list. Generally speaking, you can use all the familiar ways to access a Python list to access the results of a cbapi query. For example:
>>> len(base_query) # How many results were returned for the query? 3 >>> base_query[:2] # I want the first two results [<cbapi.response.models.Process: id 00000003-0000-036c-01d2-2efd3af51186-00000001> @ https://cbserver, <cbapi.response.models.Process: id 00000003-0000-07d4-01d2-2efcd4949dfc-00000001> @ https://cbserver] >>> base_query[-1:] # I want the last result [<cbapi.response.models.Process: id 00000002-0000-0f2c-01d2-2a57625ca0dd-00000001> @ https://cbserver] >>> for proc in base_query: # Loop over all the results >>> print(proc.cmdline) "C:\Windows\system32\cmd.exe" "C:\Windows\system32\cmd.exe" "C:\Windows\system32\cmd.exe" >>> procs = list(base_query) # Just make a list of all the results
In addition to using a Query object as an array, two helper methods are provided as common shortcuts. The first
.one() method is useful when you know only one result should match your query; it
will throw a
MoreThanOneResultError exception if there are zero or more than one results for the query. The
second method is
.first(), which will return the first result from the result set, or None if there are no results.
Every time you access a Query object, it will perform a REST API query to the Carbon Black server. For large result sets, the results are retrieved in batches- by default, 100 results per API request on Cb Response and 1,000 results per API request on Cb Protection. The search queries themselves are not cached, but the resulting Model Objects are.
Retrieving Objects by ID¶
Every Model Object (and in fact any object addressable via the REST API) has a unique ID associated with it. If you
already have a unique ID for a given Model Object, for example, a Process GUID for Cb Response, or a Computer ID
for Cb Protection, you can ask cbapi to give you the associated Model Object for that ID by passing that ID to the
.select() call. For example:
>>> binary = cb.select(Binary, "CA4FAFFA957C71C006B59E29DFE3EB8B") >>> print(binary.file_desc) PNRP Name Space Provider
Note that retrieving an object via
.select() with the ID does not automatically request the object from the server
via the API. If the Model Object is already in the local cache, the locally cached version is returned. If it is not,
a “blank” Model Object is created and is initialized only when an attempt is made to read a property. Therefore,
assuming an empty cache, in the example above, the REST API query would not happen until the second line
.select(), add the
force_init=True keyword parameter to the
.select() call. This will cause cbapi to force a refresh of the
object and if it does not exist, cbapi will throw a
Creating New Objects¶
The Cb Response and Protection REST APIs provide the ability to insert new data under certain circumstances. For
example, the Cb Response REST API allows you to insert a new banned hash into its database. Model Objects that
represent these data types can be “created” in cbapi by using the
>>> bh = cb.create(BannedHash)
If you attempt to create a Model Object that cannot be created, you will receive a
Once a Model Object is created, it’s blank (it has no data). You will need to set the required properties and then call the
>>> bh = cb.create(BannedHash) >>> bh.text = "Banned from API" >>> bh.md5sum = "CA4FAFFA957C71C006B59E29DFE3EB8B" >>> bh.save()
If you don’t fill out all the properties required by the API, then you will receive an
exception with a list of the properties that are required and not currently set.
.save() method is called, the appropriate REST API call is made to create the object. The Model Object
is then updated to the current state returned by the API, which may include additional data properties initialized
by Cb Response or Protection.
Modifying Existing Objects¶
.save() method can be used to modify existing Model Objects if the REST API provides that capability.
If you attempt to modify a Model Object that cannot be changed, you will receive a
For example, if you want to change the “jgarman” user’s password to “cbisawesome”:
>>> user = cb.select(User, "jgarman") >>> user.password = "cbisawesome" >>> user.save()
Simply call the
.delete() method on a Model Object to delete it (again, if you attempt to delete a Model Object
that cannot be deleted, you will receive a
>>> user = cb.select(User, "jgarman") >>> user.delete()
Tracking Changes to Objects¶
Internally, Model Objects track all changes between when they were last refreshed from the server up until
is called. If you’re interested in what properties have been changed or added, simply
You will see a display like the following:
>>> user = cb.create(User) >>> user.username = "jgarman" >>> user.password = "cbisawesome" >>> user.first_name = "Jason" >>> user.last_name = "Garman" >>> user.teams =  >>> user.global_admin = False >>> print(user) User object, bound to https://cbserver. Partially initialized. Use .refresh() to load all attributes ------------------------------------------------------------------------------- (+) email: firstname.lastname@example.org (+) first_name: Jason (+) global_admin: False id: None (+) last_name: Garman (+) password: cbisawesome (+) teams:  (+) username: jgarman
(+) symbol before a property name means that the property will be added the next time that
is called. Let’s call
.save() and modify one of the Model Object’s properties:
>>> user.save() >>> user.first_name = "J" >>> print(user) print(user) User object, bound to https://cbserver. Last refreshed at Mon Nov 7 16:54:00 2016 ------------------------------------------------------------------------------- auth_token: 8b2dcf9d59b7da1a0b2b4ec50a77d8ca3d7dcb9c email: email@example.com (*) first_name: J global_admin: False id: jgarman last_name: Garman teams:  username: jgarman
(*) symbol means that a property value will be changed the next time that
.save() is called. This time,
let’s forget about our changes by calling
>>> user.reset() >>> print(user.first_name) Jason
Now the user Model Object has been restored to the original state as it was retrieved from the server.