Documentation: https://thehive-project.github.io/TheHive4py
Source Code: https://github.com/TheHive-Project/TheHive4py
Important
thehive4py v1.x is not maintained anymore as TheHive v3 and v4 are end of life. thehive4py v2.x is a complete rewrite and is not compatible with thehive4py v1.x. The library is still in beta phase.
What's New: This is a rebooted version of thehive4py
designed specifically for TheHive 5. Stay tuned, as we have more exciting updates in store!
Welcome to thehive4py
, the Python library designed to simplify interactions with TheHive 5.x. Whether you're a cybersecurity enthusiast or a developer looking to integrate TheHive into your Python projects, this library has got you covered.
Feel free to explore the library's capabilities and contribute to its development. We appreciate your support in making TheHive integration in Python more accessible and efficient.
thehive4py
works with all currently supported python versions, at the time of writing py>=3.8
. One can check the official version support and end of life status here.
The thehive4py
can be installed with pip like:
pip install "thehive4py>=2.0.0b"
Warning
Since thehive4py
2.x is still in beta it is necessary to specify the beta version number during pip install, otherwise the latest version of 1.x would be installed.
You can create a thehive4py
client instance in two different ways, depending on your authentication method:
Method 1: Username/password authentication
If you're using a username and password for authentication, you can create a client like this:
from thehive4py import TheHiveApi
hive = TheHiveApi(
url="https://thehive.example.com",
username="[email protected]",
password="supersecret",
)
Method 2: Apikey authentication
Alternatively, if you prefer using an API key for authentication, use this method:
from thehive4py import TheHiveApi
hive = TheHiveApi(
url="https://thehive.example.com",
apikey="c0ff33nc0d3",
)
Choose the authentication method that best suits your needs and security requirements.
To create a new alert, you can use the client's alert.create
method with the following minimally required fields:
type
: The type of the alert.source
: The source of the alert.sourceRef
: A unique reference for the alert.title
: A descriptive title for the alert.description
: Additional information describing the alert.
Here's an example that demonstrates how to create a new alert with these required fields:
my_alert = hive.alert.create(
alert={
"type": "my-alert",
"source": "my-source",
"sourceRef": "my-reference",
"title": "My test alert",
"description": "Just a description",
}
)
The above snippet will create a new alert with the minimally required fields and will store the output alert response in the my_alert
variable.
Note
Attempting to create another alert with the same values for type
, source
, and sourceRef
will not be accepted by the backend as the combination of the three fields should be unique per alert.
To make your alerts more informative and actionable, you can add observables to them. Observables are specific pieces of data related to an alert. In this example, we'll enhance the previous alert with two observables: an IP address 93.184.216.34
and a domain example.com
.
Method 1: Adding observables individually
You can add observables to an existing alert using the alert.create_observable
method as shown below:
hive.alert.create_observable(
alert_id=my_alert["_id"],
observable={"dataType": "ip", "data": "93.184.216.34"},
)
hive.alert.create_observable(
alert_id=my_alert["_id"],
observable={"dataType": "domain", "data": "example.com"},
)
This method is useful when you want to add observables to an alert after its initial creation.
Method 2: Adding observables during alert creation
Alternatively, if you already know the observables when creating the alert, you can use the observables
field within the alert creation method for a more concise approach:
my_alert = hive.alert.create(
alert={
"type": "my-alert",
"source": "my-source",
"sourceRef": "my-reference",
"title": "My test alert",
"description": "Just a description",
"observables": [
{"dataType": "ip", "data": "93.184.216.34"},
{"dataType": "domain", "data": "example.com"},
],
}
)
This method not only saves you from making additional network requests but also reduces the chance of errors, making your code more efficient and reliable.
By incorporating observables into your alerts, you provide valuable context and information for further analysis and incident response.
If you need to add or modify fields in an existing alert, you can easily update it using client's alert.update
method. In this example, we'll add a tag my-tag
and change the alert's title:
hive.alert.update(
alert_id=my_alert["_id"],
fields={
"title": "My updated alert",
"tags": ["my-tag"],
},
)
The code above updates the alert's title and adds a new tag to the alert in TheHive.
It's essential to understand that the my_alert
object in your Python code will not automatically reflect these changes. thehive4py
doesn't provide object relationship mapping features. To get the latest version of the alert after making modifications, you need to fetch it again:
my_alert = hive.alert.get(alert_id=my_alert["_id"])
After this request, my_alert["title"]
will be "My Updated Alert"
, and my_alert["tags"]
will include "my-tag"
. This ensures that you have the most up-to-date information in your Python code.
You have two options to create a case in thehive4py
: either promote an existing alert to a case or create a new, empty case.
Method 1: Promote an existing alert to a case
You can convert an existing alert into a case and associate it with that alert using the alert.promote_to_case
method:
my_case = hive.alert.promote_to_case(alert_id=my_alert["_id"])
This method will create a case based on the existing alert and automatically assign the alert to the case. Any observables from the alert will also be copied as case observables.
Method 2: Create an empty case
Alternatively, you can create a new, empty case using the case.create
method:
my_case = hive.case.create(
case={"title": "My First Case", "description": "Just a description"}
)
This method creates a fresh case with no alerts or observables attached.
To merge an existing alert into a new case at a later time, use the alert.merge_into_case
method:
hive.alert.merge_into_case(alert_id=my_alert["_id"], case_id=my_case["_id"])
By choosing the method that suits your workflow, you can efficiently manage cases and alerts within TheHive using thehive4py
.
To retrieve observables from a case, you can use the case.find_observables
method provided by thehive4py
. This method supports various filtering and querying options, allowing you to retrieve specific observables or all observables associated with a case.
To retrieve all the observables of a case, use the following code:
case_observables = hive.case.find_observables(case_id=my_case["_id"])
If you want to retrieve specific observables based on criteria, you can leverage TheHive's powerful query capabilities. You can refer to the official Query API documentation for more details.
Here's an example of how to retrieve IP observables from a case:
ip_observable = hive.case.find_observables(
case_id=my_case["_id"], filters=Eq("dataType", "ip") & Like("data", "93.184.216.34")
)
In this example, we use the Eq
, Like
and the &
operators filters to specify the criteria for the query. You can also achieve the same result using a dict-based approach for filtering:
ip_observable = hive.case.find_observables(
case_id=my_case["_id"],
filters={
"_and": [
{"_field": "dataType", "_value": "ip"},
{"_like": {"_field": "data", "_value": "93.184.216.34"}},
]
}
)
The dict-based approach is possible, but we recommend using the built-in filter classes for building query expressions due to their ease of use.
Currently, the filter classes support the following operators:
&
: Used for the Query API's_and
construct.|
: Used for the Query API's_or
construct.~
: Used for the Query API's_not
construct.
These operators provide a convenient and intuitive way to construct complex queries.
A virtual environment is highly recommended for clean and isolated Python development. It allows you to manage project-specific dependencies and avoid conflicts with other projects. In case you don't know what is/how to use a virtual environment let's find out more here.
If you are a first time contributor to github projects please make yourself comfortable with the page contributing to projects.
Navigate to the cloned repository's directory and install the package with development extras using pip:
pip install -e .[dev]
This command installs the package in editable mode (-e
) and includes additional development dependencies.
Now, you have the thehive4py
package installed in your development environment, ready for contributions.
To contribute to thehive4py
, follow these steps:
-
Create an issue: Start by creating an issue that describes the problem you want to solve or the feature you want to add. This allows for discussion and coordination with other contributors.
-
Create a branch: Once you have an issue, create a branch for your work. Use the following naming convention:
<issue-no>-title-of-branch
. For example, if you're working on issue #1 and updating the readme, name the branch1-update-readme
.
To ensure the integrity of your changes and maintain code quality, you can run CI checks before pushing your changes to the repository. Use one of the following methods:
Method 1: Manual check
Run the CI checks manually by executing the following command:
python scripts/ci.py
This command will trigger the CI checks and provide feedback on any issues that need attention.
Method 2: Automatic checks with pre-commit hooks [experimental]
Note
The pre-commit hooks are not thoroughly tested at the moment and probably broken
For a more streamlined workflow, you can install pre-commit hooks provided by the repository. These hooks will automatically execute checks before each commit. To install them, run:
pre-commit install
With pre-commit hooks in place, your changes will be automatically validated for compliance with coding standards and other quality checks each time you commit. This helps catch issues early and ensures a smooth contribution process.
Note
Since TheHive 5.3 the licensing constraints has been partially lifted therefore a public integrator image is available for running tests both locally and in github.
thehive4py
primarily relies on integration tests, which are designed to execute against a live TheHive 5.x instance. These tests ensure that the library functions correctly in an environment closely resembling real-world usage.
Since the test suite relies on the existence of a live TheHive docker container a local docker engine installation is a must. If you are unfamiliar with docker please check out the official documentation.
The test suite relies on the official thehive-image to create a container locally with the predefined name thehive4py-integration-tester
which will act as a unique id.
The container will expose TheHive on a random port to make sure it causes no conflicts for any other containers which expose ports.
The suite can identify this random port by querying the container info based on the predefined name.
Once TheHive is responsive the suite will initialize the instance with a setup required by the tests (e.g.: test users, organisations, etc.).
Please note that due to this initial setup the very first test run will idle for some time to make sure everything is up and running. Any other subsequent runs' statup time should be significantly faster.
To execute the whole test suite locally one can use the scripts/ci.py
utility script like:
./scripts/ci.py --test
Note however that the above will execute the entire test suite which can take several minutes to complete.
In case one wants to execute only a portion of the test suite then the easiest workaround is to use pytest
and pass the path to the specific test module. For example to only execute tests for the alert endpoints one can do:
pytest -v tests/test_alert_endpoint.py