DeTTECT/generic.py

943 lines
37 KiB
Python

import os
import shutil
import pickle
from io import StringIO
from ruamel.yaml import YAML
from datetime import datetime as dt
from upgrade import upgrade_yaml_file
from constants import *
from health import check_yaml_file_health
# Due to performance reasons the import of attackcti is within the function that makes use of this library.
def _save_attack_data(data, path):
"""
Save ATT&CK data to disk for the purpose of caching. Data can be STIX objects our a custom schema.
:param data: the MITRE ATT&CK data to save
:param path: file path to write to, including filename
:return:
"""
if not os.path.exists('cache/'):
os.mkdir('cache/')
with open(path, 'wb') as f:
pickle.dump([data, dt.now()], f)
def load_attack_data(data_type):
"""
Load the cached ATT&CK data from disk, if not expired (data file on disk is older then EXPIRE_TIME seconds).
:param data_type: the desired data type, see DATATYPE_XX constants.
:return: MITRE ATT&CK data object (STIX or custom schema)
"""
if os.path.exists("cache/" + data_type):
with open("cache/" + data_type, 'rb') as f:
cached = pickle.load(f)
write_time = cached[1]
if not (dt.now() - write_time).total_seconds() >= EXPIRE_TIME:
# the first item in the list contains the ATT&CK data
return cached[0]
from attackcti import attack_client
mitre = attack_client()
attack_data = None
if data_type == DATA_TYPE_STIX_ALL_RELATIONSHIPS:
attack_data = mitre.get_relationships()
elif data_type == DATA_TYPE_STIX_ALL_TECH_ENTERPRISE:
attack_data = mitre.get_enterprise_techniques()
elif data_type == DATA_TYPE_CUSTOM_TECH_BY_GROUP:
# First we need to know which technique references (STIX Object type 'attack-pattern') we have for all
# groups. This results in a dict: {group_id: Gxxxx, technique_ref/attack-pattern_ref: ...}
groups = load_attack_data(DATA_TYPE_STIX_ALL_GROUPS)
relationships = load_attack_data(DATA_TYPE_STIX_ALL_RELATIONSHIPS)
all_groups_relationships = []
for g in groups:
for r in relationships:
if g['id'] == r['source_ref'] and r['relationship_type'] == 'uses' and \
r['target_ref'].startswith('attack-pattern--'):
# much more information on the group can be added. Only the minimal required data is now added.
all_groups_relationships.append(
{
'group_id': get_attack_id(g),
'name': g['name'],
'aliases': g.get('aliases', None),
'technique_ref': r['target_ref']
})
# Now we start resolving this part of the dict created above: 'technique_ref/attack-pattern_ref'.
# and we add some more data to the final result.
all_group_use = []
techniques = load_attack_data(DATA_TYPE_STIX_ALL_TECH)
for gr in all_groups_relationships:
for t in techniques:
if t['id'] == gr['technique_ref']:
all_group_use.append(
{
'group_id': gr['group_id'],
'name': gr['name'],
'aliases': gr['aliases'],
'technique_id': get_attack_id(t),
'x_mitre_platforms': t.get('x_mitre_platforms', None),
'matrix': t['external_references'][0]['source_name']
})
attack_data = all_group_use
elif data_type == DATA_TYPE_STIX_ALL_TECH:
attack_data = mitre.get_techniques()
elif data_type == DATA_TYPE_STIX_ALL_GROUPS:
attack_data = mitre.get_groups()
elif data_type == DATA_TYPE_STIX_ALL_SOFTWARE:
attack_data = mitre.get_software()
elif data_type == DATA_TYPE_CUSTOM_TECH_BY_SOFTWARE:
# First we need to know which technique references (STIX Object type 'attack-pattern') we have for all software
# This results in a dict: {software_id: Sxxxx, technique_ref/attack-pattern_ref: ...}
software = load_attack_data(DATA_TYPE_STIX_ALL_SOFTWARE)
relationships = load_attack_data(DATA_TYPE_STIX_ALL_RELATIONSHIPS)
all_software_relationships = []
for s in software:
for r in relationships:
if s['id'] == r['source_ref'] and r['relationship_type'] == 'uses' and \
r['target_ref'].startswith('attack-pattern--'):
# much more information (e.g. description, aliases, platform) on the software can be added to the
# dict if necessary. Only the minimal required data is now added.
all_software_relationships.append({'software_id': get_attack_id(s), 'technique_ref': r['target_ref']})
# Now we start resolving this part of the dict created above: 'technique_ref/attack-pattern_ref'
techniques = load_attack_data(DATA_TYPE_STIX_ALL_TECH)
all_software_use = []
for sr in all_software_relationships:
for t in techniques:
if t['id'] == sr['technique_ref']:
# much more information on the technique can be added to the dict. Only the minimal required data
# is now added (i.e. resolving the technique ref to an actual ATT&CK ID)
all_software_use.append({'software_id': sr['software_id'], 'technique_id': get_attack_id(t)})
attack_data = all_software_use
elif data_type == DATA_TYPE_CUSTOM_SOFTWARE_BY_GROUP:
# First we need to know which software references (STIX Object type 'malware' or 'tool') we have for all
# groups. This results in a dict: {group_id: Gxxxx, software_ref/malware-tool_ref: ...}
groups = load_attack_data(DATA_TYPE_STIX_ALL_GROUPS)
relationships = load_attack_data(DATA_TYPE_STIX_ALL_RELATIONSHIPS)
all_groups_relationships = []
for g in groups:
for r in relationships:
if g['id'] == r['source_ref'] and r['relationship_type'] == 'uses' and \
(r['target_ref'].startswith('tool--') or r['target_ref'].startswith('malware--')):
# much more information on the group can be added. Only the minimal required data is now added.
all_groups_relationships.append(
{
'group_id': get_attack_id(g),
'name': g['name'],
'aliases': g.get('aliases', None),
'software_ref': r['target_ref']
})
# Now we start resolving this part of the dict created above: 'software_ref/malware-tool_ref'.
# and we add some more data to the final result.
all_group_use = []
software = load_attack_data(DATA_TYPE_STIX_ALL_SOFTWARE)
for gr in all_groups_relationships:
for s in software:
if s['id'] == gr['software_ref']:
all_group_use.append(
{
'group_id': gr['group_id'],
'name': gr['name'],
'aliases': gr['aliases'],
'software_id': get_attack_id(s),
'x_mitre_platforms': s.get('x_mitre_platforms', None),
'matrix': s['external_references'][0]['source_name']
})
attack_data = all_group_use
elif data_type == DATA_TYPE_STIX_ALL_ENTERPRISE_MITIGATIONS:
attack_data = mitre.get_enterprise_mitigations()
elif data_type == DATA_TYPE_STIX_ALL_MOBILE_MITIGATIONS:
attack_data = mitre.get_mobile_mitigations()
_save_attack_data(attack_data, "cache/" + data_type)
return attack_data
def init_yaml():
_yaml = YAML()
_yaml.Representer.ignore_aliases = lambda *args: True # disable anchors/aliases
return _yaml
def _get_base_template(name, description, stage, platform, sorting):
"""
Prepares a base template for the json layer file that can be loaded into the MITRE ATT&CK Navigator.
More information on the version 2.2 layer format:
https://github.com/mitre/attack-navigator/blob/master/layers/LAYERFORMATv2_1.md
:param name: name
:param description: description
:param stage: stage (act | prepare)
:param platform: platform
:param sorting: sorting
:return: layer template dictionary
"""
layer = dict()
layer['name'] = name
layer['version'] = '2.2'
layer['domain'] = 'mitre-enterprise'
layer['description'] = description
if platform == 'all':
platform = list(PLATFORMS.values())
if stage == 'attack':
layer['filters'] = {'stages': ['act'], 'platforms': platform}
else:
layer['filters'] = {'stages': ['prepare'], 'platforms': platform}
layer['sorting'] = sorting
layer['viewMode'] = 0
layer['hideDisable'] = False
layer['techniques'] = []
layer['showTacticRowBackground'] = False
layer['tacticRowBackground'] = COLOR_TACTIC_ROW_BACKGRND
layer['selectTechniquesAcrossTactics'] = True
return layer
def get_layer_template_groups(name, max_count, description, stage, platform, overlay_type):
"""
Prepares a base template for the json layer file that can be loaded into the MITRE ATT&CK Navigator.
More information on the version 2.2 layer format:
https://github.com/mitre/attack-navigator/blob/master/layers/LAYERFORMATv2_1.md
:param name: name
:param max_count: the sum of all count values
:param description: description
:param stage: stage (act | prepare)
:param platform: platform
:param overlay_type: group, visibility or detection
:return: layer template dictionary
"""
layer = _get_base_template(name, description, stage, [platform], 3)
layer['gradient'] = {'colors': [COLOR_GRADIENT_MIN, COLOR_GRADIENT_MAX], 'minValue': 0, 'maxValue': max_count}
layer['legendItems'] = []
layer['legendItems'].append({'label': 'Tech. not often used', 'color': COLOR_GRADIENT_MIN})
layer['legendItems'].append({'label': 'Tech. used frequently', 'color': COLOR_GRADIENT_MAX})
if overlay_type == OVERLAY_TYPE_GROUP:
layer['legendItems'].append({'label': 'Groups overlay: tech. in group + overlay', 'color': COLOR_GROUP_OVERLAY_MATCH})
layer['legendItems'].append({'label': 'Groups overlay: tech. in overlay', 'color': COLOR_GROUP_OVERLAY_NO_MATCH})
layer['legendItems'].append({'label': 'Src. of tech. is only software', 'color': COLOR_SOFTWARE})
layer['legendItems'].append({'label': 'Src. of tech. is group(s)/overlay + software', 'color': COLOR_GROUP_AND_SOFTWARE})
elif overlay_type == OVERLAY_TYPE_DETECTION:
layer['legendItems'].append({'label': 'Tech. in group + detection', 'color': COLOR_GROUP_OVERLAY_MATCH})
layer['legendItems'].append({'label': 'Tech. in detection', 'color': COLOR_GROUP_OVERLAY_ONLY_DETECTION})
elif overlay_type == OVERLAY_TYPE_VISIBILITY:
layer['legendItems'].append({'label': 'Tech. in group + visibility', 'color': COLOR_GROUP_OVERLAY_MATCH})
layer['legendItems'].append({'label': 'Tech. in visibility', 'color': COLOR_GROUP_OVERLAY_ONLY_VISIBILITY})
return layer
def get_layer_template_detections(name, description, stage, platform):
"""
Prepares a base template for the json layer file that can be loaded into the MITRE ATT&CK Navigator.
More information on the version 2.2 layer format:
https://github.com/mitre/attack-navigator/blob/master/layers/LAYERFORMATv2_1.md
:param name: name
:param description: description
:param stage: stage (act | prepare)
:param platform: platform
:return: layer template dictionary
"""
layer = _get_base_template(name, description, stage, platform, 0)
layer['legendItems'] = \
[
{'label': 'Detection score 0: Forensics/Context', 'color': COLOR_D_0},
{'label': 'Detection score 1: Basic', 'color': COLOR_D_1},
{'label': 'Detection score 2: Fair', 'color': COLOR_D_2},
{'label': 'Detection score 3: Good', 'color': COLOR_D_3},
{'label': 'Detection score 4: Very good', 'color': COLOR_D_4},
{'label': 'Detection score 5: Excellent', 'color': COLOR_D_5}
]
return layer
def get_layer_template_data_sources(name, description, stage, platform):
"""
Prepares a base template for the json layer file that can be loaded into the MITRE ATT&CK Navigator.
More information on the version 2.2 layer format:
https://github.com/mitre/attack-navigator/blob/master/layers/LAYERFORMATv2_1.md
:param name: name
:param description: description
:param stage: stage (act | prepare)
:param platform: platform
:return: layer template dictionary
"""
layer = _get_base_template(name, description, stage, platform, 0)
layer['legendItems'] = \
[
{'label': '1-25% of data sources available', 'color': COLOR_DS_25p},
{'label': '26-50% of data sources available', 'color': COLOR_DS_50p},
{'label': '51-75% of data sources available', 'color': COLOR_DS_75p},
{'label': '76-99% of data sources available', 'color': COLOR_DS_99p},
{'label': '100% of data sources available', 'color': COLOR_DS_100p}
]
return layer
def get_layer_template_visibility(name, description, stage, platform):
"""
Prepares a base template for the json layer file that can be loaded into the MITRE ATT&CK Navigator.
More information on the version 2.2 layer format:
https://github.com/mitre/attack-navigator/blob/master/layers/LAYERFORMATv2_1.md
:param name: name
:param description: description
:param stage: stage (act | prepare)
:param platform: platform
:return: layer template dictionary
"""
layer = _get_base_template(name, description, stage, platform, 0)
layer['legendItems'] = \
[
{'label': 'Visibility score 1: Minimal', 'color': COLOR_V_1},
{'label': 'Visibility score 2: Medium', 'color': COLOR_V_2},
{'label': 'Visibility score 3: Good', 'color': COLOR_V_3},
{'label': 'Visibility score 4: Excellent', 'color': COLOR_V_4}
]
return layer
def get_layer_template_layered(name, description, stage, platform):
"""
Prepares a base template for the json layer file that can be loaded into the MITRE ATT&CK Navigator.
More information on the version 2.2 layer format:
https://github.com/mitre/attack-navigator/blob/master/layers/LAYERFORMATv2_1.md
:param name: name
:param description: description
:param stage: stage (act | prepare)
:param platform: platform
:return: layer template dictionary
"""
layer = _get_base_template(name, description, stage, platform, 0)
layer['legendItems'] = \
[
{'label': 'Visibility', 'color': COLOR_OVERLAY_VISIBILITY},
{'label': 'Detection', 'color': COLOR_OVERLAY_DETECTION},
{'label': 'Visibility and detection', 'color': COLOR_OVERLAY_BOTH}
]
return layer
def write_file(filename_prefix, filename, content):
"""
Writes content to a file and ensures if the file already exists it won't be overwritten by appending a number
as suffix.
:param filename_prefix: prefix part of the filename
:param filename: filename
:param content: the content of the file that needs to be written to the file
:return:
"""
output_filename = 'output/%s_%s' % (filename_prefix, normalize_name_to_filename(filename))
output_filename = get_non_existing_filename(output_filename, 'json')
with open(output_filename, 'w') as f:
f.write(content)
print('File written: ' + output_filename)
def get_non_existing_filename(filename, extension):
"""
Generates a filename that doesn't exist based on the given filename by appending a number as suffix.
:param filename:
:param extension:
:return:
"""
if os.path.exists('%s.%s' % (filename, extension)):
suffix = 1
while os.path.exists('%s_%s.%s' % (filename, suffix, extension)):
suffix += 1
output_filename = '%s_%s.%s' % (filename, suffix, extension)
else:
output_filename = '%s.%s' % (filename, extension)
return output_filename
def backup_file(filename):
"""
Create a backup of the provided file
:param filename: existing YAML filename
:return:
"""
suffix = 1
backup_filename = filename.replace('.yaml', '_backup_' + str(suffix) + '.yaml')
while os.path.exists(backup_filename):
backup_filename = backup_filename.replace('_backup_' + str(suffix) + '.yaml', '_backup_' + str(suffix+1) + '.yaml')
suffix += 1
shutil.copy2(filename, backup_filename)
print('Written backup file: ' + backup_filename + '\n')
def get_attack_id(stix_obj):
"""
Get the Technique, Group or Software ID from the STIX object
:param stix_obj: STIX object (Technique, Software or Group)
:return: ATT&CK ID
"""
for ext_ref in stix_obj['external_references']:
if ext_ref['source_name'] in ['mitre-attack', 'mitre-mobile-attack', 'mitre-pre-attack']:
return ext_ref['external_id']
def get_tactics(technique):
"""
Get all tactics from a given technique
:param technique: technique STIX object
:return: list with tactics
"""
tactics = []
if 'kill_chain_phases' in technique:
for phase in technique['kill_chain_phases']:
tactics.append(phase['phase_name'])
return tactics
def get_technique(techniques, technique_id):
"""
Generic function to lookup a specific technique_id in a list of dictionaries with techniques.
:param techniques: list with all techniques
:param technique_id: technique_id to look for
:return: the technique you're searching for. None if not found.
"""
for tech in techniques:
if technique_id == get_attack_id(tech):
return tech
return None
def ask_yes_no(question):
"""
Ask the user to a question that needs to be answered with yes or no.
:param question: The question to be asked
:return: boolean value indicating a yes (True) or no (False0
"""
yes_no = ''
while not re.match('^(y|yes|n|no)$', yes_no, re.IGNORECASE):
yes_no = input(question + '\n >> y(yes) / n(no): ')
print('')
if re.match('^(y|yes)$', yes_no, re.IGNORECASE):
return True
else:
return False
def ask_multiple_choice(question, list_answers):
"""
Ask a multiple choice question.
:param question: the question to ask
:param list_answers: a list of answer
:return: the answer
"""
answer = ''
answers = ''
x = 1
for a in list_answers:
a = a.replace('\n', '\n ')
answers += ' ' + str(x) + ') ' + a + '\n'
x += 1
# noinspection Annotator
while not re.match('(^[1-' + str(len(list_answers)) + ']{1}$)', answer):
print(question)
print(answers)
answer = input(' >> ')
print('')
return list_answers[int(answer)-1]
def fix_date_and_remove_null(yaml_file, date, input_type='ruamel'):
"""
Remove the single quotes around the date key-value pair in the provided yaml_file and remove any 'null' values
:param yaml_file: ruamel.yaml instance or location of YAML file
:param date: string date value (e.g. 2019-01-01)
:param input_type: input type can be a ruamel.yaml instance or list
:return: YAML file lines in a list
"""
_yaml = init_yaml()
if input_type == 'ruamel':
# ruamel does not support output to a variable. Therefore we make use of StringIO.
file = StringIO()
_yaml.dump(yaml_file, file)
file.seek(0)
new_lines = file.readlines()
elif input_type == 'list':
new_lines = yaml_file
elif input_type == 'file':
new_lines = yaml_file.readlines()
fixed_lines = [l.replace('\'' + date + '\'', date).replace('null', '')
if REGEX_YAML_DATE.match(l) else
l.replace('null', '') for l in new_lines]
return fixed_lines
def get_latest_score_obj(yaml_object):
"""
Get the the score object in the score_logbook by date
:param yaml_object: a detection or visibility YAML object
:return: the latest score object
"""
if not isinstance(yaml_object['score_logbook'], list):
yaml_object['score_logbook'] = [yaml_object['score_logbook']]
if len(yaml_object['score_logbook']) > 0 and 'date' in yaml_object['score_logbook'][0]:
# for some weird reason 'sorted()' provides inconsistent results
newest_score_obj = None
newest_date = None
for score_obj in yaml_object['score_logbook']:
if not newest_score_obj or score_obj['date'] > newest_date:
newest_date = score_obj['date']
newest_score_obj = score_obj
return newest_score_obj
else:
return None
def get_latest_comment(yaml_object, empty=' '):
"""
Return the latest comment present in the score_logbook
:param yaml_object: a detection or visibility YAML object
:param empty: value for an empty comment
:return: comment
"""
score_obj = get_latest_score_obj(yaml_object)
if score_obj:
if score_obj['comment'] == '' or not score_obj['comment']:
return empty
else:
return score_obj['comment']
else:
return empty
def get_latest_date(yaml_object):
"""
Return the latest date present in the score_logbook
:param yaml_object: a detection or visibility YAML object
:return: date as a datetime object or None
"""
score_obj = get_latest_score_obj(yaml_object)
if score_obj:
return score_obj['date']
else:
return None
def get_latest_auto_generated(yaml_object):
"""
Return the latest auto_generated value present in the score_logbook
:param yaml_object: a detection or visibility YAML object
:return: True or False
"""
score_obj = get_latest_score_obj(yaml_object)
if score_obj:
if 'auto_generated' in score_obj:
return score_obj['auto_generated']
else:
return False
else:
return False
def get_latest_score(yaml_object):
"""
Return the latest score present in the score_logbook
:param yaml_object: a detection or visibility YAML object
:return: score as an integer or None
"""
score_obj = get_latest_score_obj(yaml_object)
if score_obj:
return score_obj['score']
else:
return None
def normalize_name_to_filename(name):
"""
Normalize the input filename to a lowercase filename and replace spaces with dashes.
:param name: input filename
:return: normalized filename
"""
return name.lower().replace(' ', '-')
def platform_to_filename(platform):
"""
Makes a filename friendly version of the platform parameter which can be a string or list.
:param platform: the platform variable (a string or a list)
:return: a filename friendly representation of the value of platform
"""
if platform == 'all':
return 'all'
elif isinstance(platform, list):
return "-".join(platform)
else:
return ''
def map_techniques_to_data_sources(techniques, my_data_sources):
"""
This function maps the MITRE ATT&CK techniques to your data sources.
:param techniques: list with all MITRE ATT&CK techniques
:param my_data_sources: your configured data sources
:return: a dictionary containing techniques that can be used in the layer output file.
"""
my_techniques = {}
for i_ds in my_data_sources.keys():
# Loop through all techniques, to find techniques using that data source:
for t in techniques:
# If your data source is in the list of data sources for this technique AND if the
# technique isn't added yet (by an other data source):
tech_id = get_attack_id(t)
if 'x_mitre_data_sources' in t:
if i_ds in t['x_mitre_data_sources'] and tech_id not in my_techniques.keys():
my_techniques[tech_id] = {}
my_techniques[tech_id]['my_data_sources'] = [i_ds, ]
my_techniques[tech_id]['data_sources'] = t['x_mitre_data_sources']
# create a list of tactics
my_techniques[tech_id]['tactics'] = list(map(lambda k: k['phase_name'], t.get('kill_chain_phases', None)))
my_techniques[tech_id]['products'] = set(my_data_sources[i_ds]['products'])
elif t['x_mitre_data_sources'] and i_ds in t['x_mitre_data_sources'] and tech_id in my_techniques.keys():
my_techniques[tech_id]['my_data_sources'].append(i_ds)
my_techniques[tech_id]['products'].update(my_data_sources[i_ds]['products'])
return my_techniques
def get_all_mitre_data_sources():
"""
Gets all the data sources from the techniques and make a set.
:return: a sorted list with all data sources
"""
techniques = load_attack_data(DATA_TYPE_STIX_ALL_TECH)
data_sources = set()
for t in techniques:
if 'x_mitre_data_sources' in t.keys():
for ds in t['x_mitre_data_sources']:
data_sources.add(ds)
return data_sources
def calculate_score(list_detections, zero_value=0):
"""
Calculates the average score in the given list which may contain multiple detection dictionaries
:param list_detections: list
:param zero_value: the value when no scores are there, default 0
:return: average score
"""
avg_score = 0
number = 0
for v in list_detections:
score = get_latest_score(v)
if score >= 0:
avg_score += score
number += 1
avg_score = int(round(avg_score / number, 0) if number > 0 else zero_value)
return avg_score
def add_entry_to_list_in_dictionary(dictionary, technique_id, key, entry):
"""
Ensures a list will be created if it doesn't exist in the given dict[technique_id][key] and adds the entry to the
list. If the dict[technique_id] doesn't exist yet, it will be created.
:param dictionary: the dictionary
:param technique_id: the id of the technique in the main dict
:param key: the key where the list in the dictionary resides
:param entry: the entry to add to the list
:return:
"""
if technique_id not in dictionary.keys():
dictionary[technique_id] = {}
if key not in dictionary[technique_id].keys():
dictionary[technique_id][key] = []
dictionary[technique_id][key].append(entry)
def set_yaml_dv_comments(yaml_object):
"""
Set all comments for the detection or visibility YAML object when missing
:param yaml_object: detection or visibility object
:return: detection or visibility object for which empty comments are no filled with an empty string
"""
yaml_object['comment'] = yaml_object.get('comment', '')
if 'score_logbook' in yaml_object:
for score_obj in yaml_object['score_logbook']:
score_obj['comment'] = score_obj.get('comment', '')
return yaml_object
def load_techniques(file):
"""
Loads the techniques (including detection and visibility properties).
:param file: the file location of the YAML file or a dict containing the techniques administration
:return: dictionary with techniques (incl. properties), name and platform
"""
my_techniques = {}
if isinstance(file, dict):
# file is a dict and created due to the use of an EQL query by the user
yaml_content = file
else:
# file is a file location on disk
_yaml = init_yaml()
with open(file, 'r') as yaml_file:
yaml_content = _yaml.load(yaml_file)
for d in yaml_content['techniques']:
if 'detection' in d:
# Add detection items:
if isinstance(d['detection'], dict): # There is just one detection entry
d['detection'] = set_yaml_dv_comments(d['detection'])
add_entry_to_list_in_dictionary(my_techniques, d['technique_id'], 'detection', d['detection'])
elif isinstance(d['detection'], list): # There are multiple detection entries
for de in d['detection']:
de = set_yaml_dv_comments(de)
add_entry_to_list_in_dictionary(my_techniques, d['technique_id'], 'detection', de)
if 'visibility' in d:
# Add visibility items
if isinstance(d['visibility'], dict): # There is just one visibility entry
d['visibility'] = set_yaml_dv_comments(d['visibility'])
add_entry_to_list_in_dictionary(my_techniques, d['technique_id'], 'visibility', d['visibility'])
elif isinstance(d['visibility'], list): # There are multiple visibility entries
for de in d['visibility']:
de = set_yaml_dv_comments(de)
add_entry_to_list_in_dictionary(my_techniques, d['technique_id'], 'visibility', de)
name = yaml_content['name']
platform = get_platform_from_yaml(yaml_content)
return my_techniques, name, platform
def _check_file_type(filename, file_type=None):
"""
Check if the provided YAML file has the key 'file_type' and possible if that key matches a specific value.
:param filename: path to a YAML file
:param file_type: value to check against the 'file_type' key in the YAML file
:return: the file_type if present, else None is returned
"""
if not os.path.exists(filename):
print('[!] File: \'' + filename + '\' does not exist')
return None
_yaml = init_yaml()
with open(filename, 'r') as yaml_file:
try:
yaml_content = _yaml.load(yaml_file)
except Exception as e:
print('[!] File: \'' + filename + '\' is not a valid YAML file.')
print(' ' + str(e)) # print more detailed error information to help the user in fixing the error.
return None
# This check is performed because a text file will also be considered to be valid YAML. But, we are using
# key-value pairs within the YAML files.
if not hasattr(yaml_content, 'keys'):
print('[!] File: \'' + filename + '\' is not a valid YAML file.')
return None
if 'file_type' not in yaml_content.keys():
print('[!] File: \'' + filename + '\' does not contain a file_type key.')
return None
elif file_type:
if file_type != yaml_content['file_type']:
print('[!] File: \'' + filename + '\' is not a file type of: \'' + file_type + '\'')
return None
else:
return yaml_content
else:
return yaml_content
def check_file(filename, file_type=None, health_is_called=False):
"""
Calls three functions to perform the following checks: is the file a valid YAML file, needs the file to be upgrade,
does the file contain errors.
:param filename: path to a YAML file
:param file_type: value to check against the 'file_type' key in the YAML file
:param health_is_called: boolean that specifies if detailed errors in the file will be printed by the function 'check_yaml_file_health'
:return: the file_type if present, else None is returned
"""
yaml_content = _check_file_type(filename, file_type)
# if the file is a valid YAML, continue. Else, return None
if yaml_content:
upgrade_yaml_file(filename, file_type, yaml_content['version'], load_attack_data(DATA_TYPE_STIX_ALL_TECH))
check_yaml_file_health(filename, file_type, health_is_called)
return yaml_content['file_type']
return yaml_content # value is None
def get_updates(update_type, sort='modified'):
"""
Print a list of updates for a techniques, groups or software. Sort by modified or creation date.
:param update_type: the type of update: techniques, groups or software
:param sort: sort the list by modified or creation date
:return:
"""
if update_type[:-1] == 'technique':
techniques = load_attack_data(DATA_TYPE_STIX_ALL_TECH)
sorted_techniques = sorted(techniques, key=lambda k: k[sort])
for t in sorted_techniques:
print(get_attack_id(t) + ' ' + t['name'])
print(' ' * 6 + 'created: ' + t['created'].strftime('%Y-%m-%d'))
print(' ' * 6 + 'modified: ' + t['modified'].strftime('%Y-%m-%d'))
print(' ' * 6 + 'matrix: ' + t['external_references'][0]['source_name'][6:])
tactics = get_tactics(t)
if tactics:
print(' ' * 6 + 'tactic: ' + ', '.join(tactics))
else:
print(' ' * 6 + 'tactic: None')
print('')
elif update_type[:-1] == 'group':
groups = load_attack_data(DATA_TYPE_STIX_ALL_GROUPS)
sorted_groups = sorted(groups, key=lambda k: k[sort])
for g in sorted_groups:
print(get_attack_id(g) + ' ' + g['name'])
print(' ' * 6 + 'created: ' + g['created'].strftime('%Y-%m-%d'))
print(' ' * 6 + 'modified: ' + g['modified'].strftime('%Y-%m-%d'))
print('')
elif update_type == 'software':
software = load_attack_data(DATA_TYPE_STIX_ALL_SOFTWARE)
sorted_software = sorted(software, key=lambda k: k[sort])
for s in sorted_software:
print(get_attack_id(s) + ' ' + s['name'])
print(' ' * 6 + 'created: ' + s['created'].strftime('%Y-%m-%d'))
print(' ' * 6 + 'modified: ' + s['modified'].strftime('%Y-%m-%d'))
print(' ' * 6 + 'matrix: ' + s['external_references'][0]['source_name'][6:])
print(' ' * 6 + 'type: ' + s['type'])
if 'x_mitre_platforms' in s:
print(' ' * 6 + 'platform: ' + ', '.join(s['x_mitre_platforms']))
else:
print(' ' * 6 + 'platform: None')
print('')
def get_statistics_mitigations(matrix):
"""
Print out statistics related to mitigations and how many techniques they cover
:return:
"""
if matrix == 'enterprise':
mitigations = load_attack_data(DATA_TYPE_STIX_ALL_ENTERPRISE_MITIGATIONS)
elif matrix == 'mobile':
mitigations = load_attack_data(DATA_TYPE_STIX_ALL_MOBILE_MITIGATIONS)
mitigations_dict = dict()
for m in mitigations:
if m['external_references'][0]['external_id'].startswith('M'):
mitigations_dict[m['id']] = {'mID': m['external_references'][0]['external_id'], 'name': m['name']}
relationships = load_attack_data(DATA_TYPE_STIX_ALL_RELATIONSHIPS)
relationships_mitigates = [r for r in relationships
if r['relationship_type'] == 'mitigates'
if r['source_ref'].startswith('course-of-action')
if r['target_ref'].startswith('attack-pattern')
if r['source_ref'] in mitigations_dict]
# {id: {name: ..., count: ..., name: ...} }
count_dict = dict()
for r in relationships_mitigates:
src_ref = r['source_ref']
m = mitigations_dict[src_ref]
if m['mID'] not in count_dict:
count_dict[m['mID']] = dict()
count_dict[m['mID']]['count'] = 1
count_dict[m['mID']]['name'] = m['name']
else:
count_dict[m['mID']]['count'] += 1
count_dict_sorted = dict(sorted(count_dict.items(), key=lambda kv: kv[1]['count'], reverse=True))
str_format = '{:<6s} {:<14s} {:s}'
print(str_format.format('Count', 'Mitigation ID', 'Name'))
print('-' * 60)
for k, v in count_dict_sorted.items():
print(str_format.format(str(v['count']), k, v['name']))
def get_statistics_data_sources():
"""
Print out statistics related to data sources and how many techniques they cover.
:return:
"""
techniques = load_attack_data(DATA_TYPE_STIX_ALL_TECH)
# {data_source: {techniques: [T0001, ...}, count: ...}
data_sources_dict = {}
for tech in techniques:
tech_id = get_attack_id(tech)
# Not every technique has a data source listed
data_sources = tech.get('x_mitre_data_sources', None)
if data_sources:
for ds in data_sources:
if ds not in data_sources_dict:
data_sources_dict[ds] = {'techniques': [tech_id], 'count': 1}
else:
data_sources_dict[ds]['techniques'].append(tech_id)
data_sources_dict[ds]['count'] += 1
# sort the dict on the value of 'count'
data_sources_dict_sorted = dict(sorted(data_sources_dict.items(), key=lambda kv: kv[1]['count'], reverse=True))
str_format = '{:<6s} {:s}'
print(str_format.format('Count', 'Data Source'))
print('-'*50)
for k, v in data_sources_dict_sorted.items():
print(str_format.format(str(v['count']), k))
def get_platform_from_yaml(yaml_content):
"""
Read the platform field from the YAML file supporting both string and list values.
:param yaml_content: the content of the YAML file containing the platform field
:return: the platform value
"""
platform = yaml_content['platform']
if isinstance(platform, str):
platform = [platform]
if platform is None:
platform = []
if platform == ['all']:
platform = 'all'
else:
valid_platform_list = []
for p in platform:
if p.lower() in PLATFORMS.keys():
valid_platform_list.append(PLATFORMS[p.lower()])
platform = valid_platform_list
return platform