MISP Taxonomies is a set of common classification libraries to tag, classify and organise information. Taxonomy allows to express the same vocabulary among a distributed set of users and organisations.
Taxonomies that can be used in [MISP](https://github.com/MISP/MISP) (2.4) and other information sharing tool and expressed in Machine Tags (Triple Tags). A machine tag is composed of a namespace (MUST), a predicate (MUST) and an (OPTIONAL) value. Machine tags are often called triple tag due to their format.
The following taxonomies can be used in MISP (as local or distributed tags) or in other tools and software willing to share common taxonomies among security information sharing tools.
- [Collaborative intelligence](./collaborative-intelligence) - Collaborative intelligence support language is a common language to support analysts to perform their analysis to get crowdsourced support when using threat intelligence sharing platform like MISP. The objective of this language is to advance collaborative analysis and to share earlier than later.
- [The Cyber Threat Framework](./cyber-threat-framework) was developed by the US Government to enable consistent characterization and categorization of cyber threat events, and to identify trends or changes in the activities of cyber adversaries.
- [ms-caro-malware](./ms-caro-malware) Malware Type and Platform classification based on Microsoft's implementation of the Computer Antivirus Research Organization (CARO) Naming Scheme and Malware Terminology.
- [runtime-packer](./runtime-packer) - Runtime or software packer used to combine compressed data with the decompression code. The decompression code can add additional obfuscations mechanisms including polymorphic-packer or other o
bfuscation techniques. This taxonomy lists all the known or official packer used for legitimate use or for packing malicious binaries.
- [Targeted Threat Index is a metric for assigning an overall threat ranking score to email messages that deliver malware to a victim’s computer.](./targeted-threat-index)
### [Cyber Kill Chain](./kill-chain) from Lockheed Martin
Cyber Kill Chain from Lockheed Martin as described in [Intelligence-Driven Computer Network Defense Informed by Analysis of Adversary Campaigns and Intrusion Kill Chains](http://www.lockheedmartin.com/content/dam/lockheed/data/corporate/documents/LM-White-Paper-Intel-Driven-Defense.pdf).
### [Cyber Threat Framework](./cyber-threat-framework) from DNI.gov
[The Cyber Threat Framework was developed](https://www.dni.gov/index.php/cyber-threat-framework) by the US Government to enable consistent characterization and categorization of cyber threat events, and to identify trends or changes in the activities of cyber adversaries.
### [Diamond Model for Intrusion Analysis](./diamond-model)
The Diamond Model for Intrusion Analysis, a phase-based model developed by Lockheed Martin, aims to help categorise and identify the stage of an attack
as described in [http://www.activeresponse.org/wp-content/uploads/2013/07/diamond.pdf](http://www.activeresponse.org/wp-content/uploads/2013/07/diamond.pdf).
The Detection Maturity Level (DML) model is a capability maturity model for referencing ones maturity in detecting cyber attacks. It's designed for organizations who perform intel-driven detection and response and who put an emphasis on having a mature detection program.
ENISA Threat Taxonomy - A tool for structuring threat information [as published](https://www.enisa.europa.eu/topics/threat-risk-management/threats-and-trends/enisa-threat-landscape/etl2015/enisa-threat-taxonomy-a-tool-for-structuring-threat-information)
EU classified information (EUCI) means any information or material designated by a EU security classification, the unauthorised disclosure of which could cause varying degrees of prejudice to the interests of the European Union or of one or more of the Member States [as described](http://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:32013D0488&from=EN).
Information security indicators have been standardized by the [ETSI Industrial Specification Group (ISG) ISI](http://www.etsi.org/technologies-clusters/technologies/information-security-indicators). These indicators provide the basis to switch from a qualitative to a quantitative culture in IT Security Scope of measurements: External and internal threats (attempt and success), user's deviant behaviours, nonconformities and/or vulnerabilities (software, configuration, behavioural, general security framework).
### [Information Security Marking Metadata](./dni-ism) DNI (Director of National Intelligence - US)
ISM (Information Security Marking Metadata) [V13](http://www.dni.gov/index.php/about/organization/chief-information-officer/information-security-marking-metadata) as described by DNI.gov.
### [ms-caro-malware](./ms-caro-malware) Malware Type and Platform classification based on Microsoft's implementation of the Computer Antivirus Research Organization (CARO) Naming Scheme and Malware Terminology.
STIX-TTP exposes a set classification tools that represents the behavior or modus operandi of cyber adversaries as normalized in STIX. TTPs consist of the specific adversary behavior (attack patterns, malware, exploits) exhibited, resources leveraged (tools, infrastructure, personas), information on the victims targeted (who, what or where), relevant ExploitTargets being targeted, intended effects, relevant kill chain phases, handling guidance, source of the TTP information, etc.
### [Targeted Threat Index is a metric for assigning an overall threat ranking score to email messages that deliver malware to a victim’s computer.](./targeted-threat-index)
The Targeted Threat Index is a metric for assigning an overall threat ranking score to email messages that deliver malware to a victim’s computer. The TTI metric was first introduced at SecTor 2013 by Seth Hardy as part of the talk “RATastrophe: Monitoring a Malware Menagerie” along with Katie Kleemola and Greg Wiseman. [More info about TTI](https://citizenlab.org/2013/10/targeted-threat-index/).
The Permissible Actions Protocol - or short: PAP - was designed to indicate how the received information can be used. It's a protocol/taxonomy similar to TLP informing the recipients of information what they can do with the received information.
The Traffic Light Protocol - or short: TLP - was designed with the objective to create a favorable classification scheme for sharing sensitive information while keeping the control over its distribution at the same time.
A documentation of the taxonomies is [generated automatically](https://github.com/MISP/misp-taxonomies/blob/master/tools/machinetag.py) from the taxonomies description and available in [PDF](https://www.misp.software/taxonomies.pdf) and [HTML](https://www.misp.software/taxonomies.html).
It is quite easy. Create a JSON file describing your taxonomy as triple tags (e.g. check an existing one like [Admiralty Scale](./admiralty-scale)), create a directory matching your name space, put your machinetag file in the directory and pull your request. That's it. Everyone can benefit from your taxonomy and can be automatically enabled in information sharing tools like [MISP](https://www.github.com/MISP/MISP).
For more information, "[Information Sharing and Taxonomies Practical Classification of Threat Indicators using MISP](https://www.circl.lu/assets/files/misp-training/3.2-MISP-Taxonomy-Tagging.pdf)" presentation given to the last MISP training in Luxembourg.
Once you are happy with your file go to MISP Web GUI taxonomies/index and update the taxonomies, the newly created taxonomy should be visible, now you need to activate the tags within your taxonomy.
[machinetag.py](./tools/machinetag.py) is a parsing tool to dump taxonomies expressed in Machine Tags (Triple Tags) and list all valid tags from a specific taxonomy.