/misp-modules

Modules for expansion services, import and export in MISP

Primary LanguagePythonGNU Affero General Public License v3.0AGPL-3.0

MISP modules

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MISP modules are autonomous modules that can be used for expansion and other services in MISP.

The modules are written in Python 3 following a simple API interface. The objective is to ease the extensions of MISP functionalities without modifying core components. The API is available via a simple REST API which is independent from MISP installation or configuration.

MISP modules support is included in MISP starting from version 2.4.28.

For more information: Extending MISP with Python modules slides from MISP training.

Existing MISP modules

Expansion modules

  • ASN History - a hover and expansion module to expand an AS number with the ASN description and its history.
  • CIRCL Passive DNS - a hover and expansion module to expand hostname and IP addresses with passive DNS information.
  • CIRCL Passive SSL - a hover and expansion module to expand IP addresses with the X.509 certificate seen.
  • countrycode - a hover module to tell you what country a URL belongs to.
  • CrowdStrike Falcon - an expansion module to expand using CrowdStrike Falcon Intel Indicator API.
  • CVE - a hover module to give more information about a vulnerability (CVE).
  • DNS - a simple module to resolve MISP attributes like hostname and domain to expand IP addresses attributes.
  • DomainTools - a hover and expansion module to get information from DomainTools whois.
  • EUPI - a hover and expansion module to get information about an URL from the Phishing Initiative project.
  • Farsight DNSDB Passive DNS - a hover and expansion module to expand hostname and IP addresses with passive DNS information.
  • GeoIP - a hover and expansion module to get GeoIP information from geolite/maxmind.
  • IPASN - a hover and expansion to get the BGP ASN of an IP address.
  • iprep - an expansion module to get IP reputation from packetmail.net.
  • OTX - an expansion module for OTX.
  • passivetotal - a passivetotal module that queries a number of different PassiveTotal datasets.
  • rbl - a module to get RBL (Real-Time Blackhost List) values from an attribute.
  • shodan - a minimal shodan expansion module.
  • sourcecache - a module to cache a specific link from a MISP instance.
  • ThreatCrowd - an expansion module for ThreatCrowd.
  • threatminer - an expansion module to expand from ThreatMiner.
  • virustotal - an expansion module to pull known resolutions and malware samples related with an IP/Domain from virusTotal (this modules require a VirusTotal private API key)
  • wikidata - a wikidata expansion module.
  • xforce - an IBM X-Force Exchange expansion module.
  • YARA syntax validator - YARA syntax validator.

Export modules

Import modules

  • CSV import Customizable CSV import module.
  • Cuckoo JSON Cuckoo JSON import.
  • Email Import Email import module for MISP to import basic metadata.
  • OCR Optical Character Recognition (OCR) module for MISP to import attributes from images, scan or faxes.
  • OpenIOC OpenIOC import based on PyMISP library.
  • stiximport - An import module to process STIX xml/json.
  • ThreatAnalyzer - An import module to process ThreatAnalyzer archive.zip/analysis.json sandbox exports.
  • VMRay - An import module to process VMRay export.

How to install and start MISP modules?

sudo apt-get install python3-dev python3-pip libpq5 libjpeg-dev
cd /usr/local/src/
sudo git clone https://github.com/MISP/misp-modules.git
cd misp-modules
sudo pip3 install -I -r REQUIREMENTS
sudo pip3 install -I .
sudo vi /etc/rc.local, add this line: `sudo -u www-data misp-modules -s &`
misp-modules #to start the modules

How to add your own MISP modules?

Create your module in misp_modules/modules/expansion/, misp_modules/modules/export_mod/, or misp_modules/modules/import_mod/. The module should have at minimum three functions:

  • introspection function that returns a dict of the supported attributes (input and output) by your expansion module.
  • handler function which accepts a JSON document to expand the values and return a dictionary of the expanded values.
  • version function that returns a dict with the version and the associated meta-data including potential configurations required of the module.

Don't forget to return an error key and value if an error is raised to propagate it to the MISP user-interface.

...
    # Checking for required value
    if not request.get('ip-src'):
        # Return an error message
        return {'error': "A source IP is required"}
...

introspection

The function that returns a dict of the supported attributes (input and output) by your expansion module.

mispattributes = {'input': ['link', 'url'],
                  'output': ['attachment', 'malware-sample']}

def introspection():
    return mispattributes

version

The function that returns a dict with the version and the associated meta-data including potential configurations required of the module.

Additional Configuration Values

If your module requires additional configuration (to be exposed via the MISP user-interface), you can define those in the moduleconfig value returned by the version function.

# config fields that your code expects from the site admin
moduleconfig = ["apikey", "event_limit"]

def version():
    moduleinfo['config'] = moduleconfig
    return moduleinfo

When you do this a config array is added to the meta-data output containing all the potential configuration values:

"meta": {
      "description": "PassiveTotal expansion service to expand values with multiple Passive DNS sources",
      "config": [
        "username",
        "password"
      ],
      "module-type": [
        "expansion",
        "hover"
      ],

...

If you want to use the configuration values set in the web interface they are stored in the key config in the JSON object passed to the handler.

def handler(q=False):

    # Check if we were given a configuration
    config = q.get("config", {})

    # Find out if there is a username field
    username = config.get("username", None)

handler

The function which accepts a JSON document to expand the values and return a dictionary of the expanded values.

def handler(q=False):
    "Fully functional rot-13 encoder"
    if q is False:
        return False
    request = json.loads(q)
    src = request.get('ip-src')
    if src is None:
        # Return an error message
        return {'error': "A source IP is required"}
    else:
        return {'results':
                codecs.encode(src, "rot-13")}

Returning Binary Data

If you want to return a file or other data you need to add a data attribute.

{"results": {"values": "filename.txt",
             "types": "attachment",
             "data"  : base64.b64encode(<ByteIO>)  # base64 encode your data first
             "comment": "This is an attachment"}}

If the binary file is malware you can use 'malware-sample' as the type. If you do this the malware sample will be automatically zipped and password protected ('infected') after being uploaded.

{"results": {"values": "filename.txt",
             "types": "malware-sample",
             "data"  : base64.b64encode(<ByteIO>)  # base64 encode your data first
             "comment": "This is an attachment"}}

To learn more about how data attributes are processed you can read the processing code here.

Module type

A MISP module can be of four types:

  • expansion - service related to an attribute that can be used to extend and update an existing event.
  • hover - service related to an attribute to provide additional information to the users without updating the event.
  • import - service related to importing and parsing an external object that can be used to extend an existing event.
  • export - service related to exporting an object, event, or data.

module-type is an array where the list of supported types can be added.

Testing your modules?

MISP uses the modules function to discover the available MISP modules and their supported MISP attributes:

% curl -s http://127.0.0.1:6666/modules | jq .
[
  {
    "name": "passivetotal",
    "type": "expansion",
    "mispattributes": {
      "input": [
        "hostname",
        "domain",
        "ip-src",
        "ip-dst"
      ],
      "output": [
        "ip-src",
        "ip-dst",
        "hostname",
        "domain"
      ]
    },
    "meta": {
      "description": "PassiveTotal expansion service to expand values with multiple Passive DNS sources",
      "config": [
        "username",
        "password"
      ],
      "author": "Alexandre Dulaunoy",
      "version": "0.1"
    }
  },
  {
    "name": "sourcecache",
    "type": "expansion",
    "mispattributes": {
      "input": [
        "link"
      ],
      "output": [
        "link"
      ]
    },
    "meta": {
      "description": "Module to cache web pages of analysis reports, OSINT sources. The module returns a link of the cached page.",
      "author": "Alexandre Dulaunoy",
      "version": "0.1"
    }
  },
  {
    "name": "dns",
    "type": "expansion",
    "mispattributes": {
      "input": [
        "hostname",
        "domain"
      ],
      "output": [
        "ip-src",
        "ip-dst"
      ]
    },
    "meta": {
      "description": "Simple DNS expansion service to resolve IP address from MISP attributes",
      "author": "Alexandre Dulaunoy",
      "version": "0.1"
    }
  }
]

The MISP module service returns the available modules in a JSON array containing each module name along with their supported input attributes.

Based on this information, a query can be built in a JSON format and saved as body.json:

{
  "hostname": "www.foo.be",
  "module": "dns"
}

Then you can POST this JSON format query towards the MISP object server:

curl -s http://127.0.0.1:6666/query -H "Content-Type: application/json" --data @body.json -X POST

The module should output the following JSON:

{
  "results": [
    {
      "types": [
        "ip-src",
        "ip-dst"
      ],
      "values": [
        "188.65.217.78"
      ]
    }
  ]
}

It is also possible to restrict the category options of the resolved attributes by passing a list of categories along (optional):

{
  "results": [
    {
      "types": [
        "ip-src",
        "ip-dst"
      ],
      "values": [
        "188.65.217.78"
      ],
      "categories": [
        "Network activity",
        "Payload delivery"
      ]
    }
  ]
}

For both the type and the category lists, the first item in the list will be the default setting on the interface.

Enable your module in the web interface

For a module to be activated in the MISP web interface it must be enabled in the "Plugin Settings.

Go to "Administration > Server Settings" in the top menu

  • Go to "Plugin Settings" in the top "tab menu bar"
  • Click on the name of the type of module you have created to expand the list of plugins to show your module.
  • Find the name of your plugin's "enabled" value in the Setting Column. "Plugin.[MODULE NAME]_enabled"
  • Double click on its "Value" column
Priority        Setting                         Value   Description                             Error Message
Recommended     Plugin.Import_ocr_enabled       false   Enable or disable the ocr module.       Value not set.
  • Use the drop-down to set the enabled value to 'true'
Priority        Setting                         Value   Description                             Error Message
Recommended     Plugin.Import_ocr_enabled       true   Enable or disable the ocr module.       Value not set.

Set any other required settings for your module

In this same menu set any other plugin settings that are required for testing.

Install misp-module on an offline instance.

First, you need to grab all necessery packages for example like this :

Use pip wheel to create an archive

mkdir misp-modules-offline
pip3 wheel -r REQUIREMENTS shodan --wheel-dir=./misp-modules-offline
tar -cjvf misp-module-bundeled.tar.bz2 ./misp-modules-offline/*

On offline machine :

mkdir misp-modules-bundle
tar xvf misp-module-bundeled.tar.bz2 -C misp-modules-bundle
cd misp-modules-bundle
ls -1|while read line; do sudo pip3 install --force-reinstall --ignore-installed --upgrade --no-index --no-deps ${line};done

Next you can follow standard install procedure.

How to contribute your own module?

Fork the project, add your module, test it and make a pull-request. Modules can be also private as you can add a module in your own MISP installation.

Tips for developers creating modules

Download a pre-built virtual image from the MISP training materials.

  • Create a Host-Only adapter in VirtualBox
  • Set your Misp OVA to that Host-Only adapter
  • Start the virtual machine
  • Get the IP address of the virutal machine
  • SSH into the machine (Login info on training page)
  • Go into the misp-modules directory
cd /usr/local/src/misp-modules

Set the git repo to your fork and checkout your development branch. If you SSH'ed in as the misp user you will have to use sudo.

sudo git remote set-url origin https://github.com/YourRepo/misp-modules.git
sudo git pull
sudo git checkout MyModBranch

Remove the contents of the build directory and re-install misp-modules.

sudo rm -fr build/*
sudo pip3 install --upgrade .

SSH in with a different terminal and run misp-modules with debugging enabled.

sudo killall misp-modules
misp-modules -d

In your original terminal you can now run your tests manually and see any errors that arrive

cd tests/
curl -s http://127.0.0.1:6666/query -H "Content-Type: application/json" --data @MY_TEST_FILE.json -X POST
cd ../