mirror of https://github.com/MISP/misp-modules
543 lines
32 KiB
Python
Executable File
543 lines
32 KiB
Python
Executable File
'''
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import
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define mandatory
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'''
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import json
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import base64
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import re
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import zipfile
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import ipaddress
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import io
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import logging
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misperrors = {'error': 'Error'}
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userConfig = {}
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inputSource = ['file']
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moduleinfo = {'version': '0.10', 'author': 'Christophe Vandeplas',
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'description': 'Import for ThreatAnalyzer archive.zip/analysis.json files',
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'module-type': ['import']}
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moduleconfig = []
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log = logging.getLogger('misp-modules')
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# FIXME - many hardcoded filters should be migrated to import regexes. See also https://github.com/MISP/MISP/issues/2712
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# DISCLAIMER - This module is to be considered as experimental and needs much fine-tuning.
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# more can be done with what's in the ThreatAnalyzer archive.zip
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def handler(q=False):
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if q is False:
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return False
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results = []
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zip_starts = 'PK'
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request = json.loads(q)
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data = base64.b64decode(request['data'])
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if data[:len(zip_starts)].decode() == zip_starts:
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with zipfile.ZipFile(io.BytesIO(data), 'r') as zf:
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# unzipped_files = []
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modified_files_mapping = {}
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# pre-process some of the files in the zip
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for zip_file_name in zf.namelist(): # Get all files in the zip file
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# find the filenames of the modified_files
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if re.match(r"Analysis/proc_\d+/modified_files/mapping\.log", zip_file_name):
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with zf.open(zip_file_name, mode='r', pwd=None) as fp:
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file_data = fp.read()
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for line in file_data.decode("utf-8", 'ignore').split('\n'):
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if not line:
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continue
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if line.count('|') == 3:
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l_fname, l_size, l_md5, l_created = line.split('|')
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if line.count('|') == 4:
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l_fname, l_size, l_md5, l_sha256, l_created = line.split('|')
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l_fname = cleanup_filepath(l_fname)
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if l_fname:
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if l_size == 0:
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results.append({'values': l_fname, 'type': 'filename', 'to_ids': True,
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'categories': ['Artifacts dropped', 'Payload delivery'], 'comment': ''})
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else:
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# file is a non empty sample, upload the sample later
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modified_files_mapping[l_md5] = l_fname
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# now really process the data
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for zip_file_name in zf.namelist(): # Get all files in the zip file
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# print('Processing file: {}'.format(zip_file_name))
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if re.match(r"Analysis/proc_\d+/modified_files/.+\.", zip_file_name) and "mapping.log" not in zip_file_name:
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sample_md5 = zip_file_name.split('/')[-1].split('.')[0]
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if sample_md5 in modified_files_mapping:
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current_sample_filename = modified_files_mapping[sample_md5]
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# print("{} maps to {}".format(sample_md5, current_sample_filename))
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with zf.open(zip_file_name, mode='r', pwd=None) as fp:
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file_data = fp.read()
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results.append({
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'values': current_sample_filename,
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'data': base64.b64encode(file_data).decode(),
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'type': 'malware-sample', 'categories': ['Artifacts dropped', 'Payload delivery'], 'to_ids': True, 'comment': ''})
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if 'Analysis/analysis.json' in zip_file_name:
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with zf.open(zip_file_name, mode='r', pwd=None) as fp:
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file_data = fp.read()
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analysis_json = json.loads(file_data.decode('utf-8'))
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results += process_analysis_json(analysis_json)
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try:
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sample_filename = analysis_json.get('analysis').get('@filename')
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if sample_filename:
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with zf.open('sample', mode='r', pwd=None) as fp:
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file_data = fp.read()
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results.append({
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'values': sample_filename,
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'data': base64.b64encode(file_data).decode(),
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'type': 'malware-sample', 'categories': ['Payload delivery', 'Artifacts dropped'], 'to_ids': True, 'comment': ''})
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except Exception:
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# no 'sample' in archive, might be an url analysis, just ignore
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pass
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else:
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try:
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results = process_analysis_json(json.loads(data.decode('utf-8')))
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except ValueError:
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log.warning('MISP modules {0} failed: uploaded file is not a zip or json file.'.format(request['module']))
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return {'error': 'Uploaded file is not a zip or json file.'}
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pass
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# keep only unique entries based on the value field
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results = list({v['values']: v for v in results}.values())
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r = {'results': results}
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return r
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def process_analysis_json(analysis_json):
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if 'analysis' in analysis_json and 'processes' in analysis_json['analysis'] and 'process' in analysis_json['analysis']['processes']:
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# if 'analysis' in analysis_json and '@filename' in analysis_json['analysis']:
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# sample['values'] = analysis_json['analysis']['@filename']
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for process in analysis_json['analysis']['processes']['process']:
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# print_json(process)
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if 'connection_section' in process and 'connection' in process['connection_section']:
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# compensate for absurd behavior of the data format: if one entry = immediately the dict, if multiple entries = list containing dicts
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# this will always create a list, even with only one item
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if isinstance(process['connection_section']['connection'], dict):
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process['connection_section']['connection'] = [process['connection_section']['connection']]
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# iterate over each entry
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for connection_section_connection in process['connection_section']['connection']:
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# compensate for absurd behavior of the data format: if one entry = immediately the dict, if multiple entries = list containing dicts
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# this will always create a list, even with only one item
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for subsection in ['http_command', 'http_header']:
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if isinstance(connection_section_connection[subsection], dict):
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connection_section_connection[subsection] = [connection_section_connection[subsection]]
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if 'name_to_ip' in connection_section_connection: # TA 6.1 data format
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connection_section_connection['@remote_ip'] = connection_section_connection['name_to_ip']['@result_addresses']
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connection_section_connection['@remote_hostname'] = connection_section_connection['name_to_ip']['@request_name']
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connection_section_connection['@remote_ip'] = cleanup_ip(connection_section_connection['@remote_ip'])
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connection_section_connection['@remote_hostname'] = cleanup_hostname(connection_section_connection['@remote_hostname'])
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if connection_section_connection['@remote_ip'] and connection_section_connection['@remote_hostname']:
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val = '{}|{}'.format(connection_section_connection['@remote_hostname'],
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connection_section_connection['@remote_ip'])
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# print("connection_section_connection hostname|ip: {}|{} IDS:yes".format(
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# connection_section_connection['@remote_hostname'],
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# connection_section_connection['@remote_ip'])
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# )
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yield({'values': val, 'type': 'domain|ip', 'categories': ['Network activity'], 'to_ids': True, 'comment': ''})
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elif connection_section_connection['@remote_ip']:
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# print("connection_section_connection ip-dst: {} IDS:yes".format(
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# connection_section_connection['@remote_ip'])
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# )
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yield({'values': connection_section_connection['@remote_ip'], 'type': 'ip-dst', 'to_ids': True, 'comment': ''})
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elif connection_section_connection['@remote_hostname']:
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# print("connection_section_connection hostname: {} IDS:yes".format(
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# connection_section_connection['@remote_hostname'])
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# )
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yield({'values': connection_section_connection['@remote_hostname'], 'type': 'hostname', 'to_ids': True, 'comment': ''})
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if 'http_command' in connection_section_connection:
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for http_command in connection_section_connection['http_command']:
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# print('connection_section_connection HTTP COMMAND: {}\t{}'.format(
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# connection_section_connection['http_command']['@method'], # comment
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# connection_section_connection['http_command']['@url']) # url
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# )
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val = cleanup_url(http_command['@url'])
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if val:
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yield({'values': val, 'type': 'url', 'categories': ['Network activity'], 'to_ids': True, 'comment': http_command['@method']})
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if 'http_header' in connection_section_connection:
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for http_header in connection_section_connection['http_header']:
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if 'User-Agent:' in http_header['@header']:
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val = http_header['@header'][len('User-Agent: '):]
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yield({'values': val, 'type': 'user-agent', 'categories': ['Network activity'], 'to_ids': False, 'comment': ''})
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elif 'Host:' in http_header['@header']:
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val = http_header['@header'][len('Host: '):]
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if ':' in val:
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try:
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val_port = int(val.split(':')[1])
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except ValueError:
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val_port = False
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val_hostname = cleanup_hostname(val.split(':')[0])
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val_ip = cleanup_ip(val.split(':')[0])
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if val_hostname and val_port:
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val_combined = '{}|{}'.format(val_hostname, val_port)
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# print({'values': val_combined, 'type': 'hostname|port', 'to_ids': True, 'comment': ''})
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yield({'values': val_combined, 'type': 'hostname|port', 'categories': ['Network activity'], 'to_ids': True, 'comment': ''})
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elif val_ip and val_port:
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val_combined = '{}|{}'.format(val_ip, val_port)
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# print({'values': val_combined, 'type': 'ip-dst|port', 'to_ids': True, 'comment': ''})
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yield({'values': val_combined, 'type': 'ip-dst|port', 'to_ids': True, 'comment': ''})
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else:
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continue
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val_hostname = cleanup_hostname(val)
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if val_hostname:
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# print({'values': val_hostname, 'type': 'hostname', 'to_ids': True, 'comment': ''})
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yield({'values': val_hostname, 'type': 'hostname', 'to_ids': True, 'comment': ''})
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else:
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# LATER header not processed
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pass
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if 'filesystem_section' in process and 'create_file' in process['filesystem_section']:
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for filesystem_section_create_file in process['filesystem_section']['create_file']:
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# first skip some items
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if filesystem_section_create_file['@create_disposition'] in {'FILE_OPEN_IF'}:
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continue
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# FIXME - this section is probably not needed considering the 'stored_files stored_created_file' section we process later.
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# print('CREATE FILE: {}\t{}'.format(
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# filesystem_section_create_file['@srcfile'], # filename
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# filesystem_section_create_file['@create_disposition']) # comment - use this to filter out cases
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# )
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if 'networkoperation_section' in process and 'dns_request_by_addr' in process['networkoperation_section']:
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for networkoperation_section_dns_request_by_addr in process['networkoperation_section']['dns_request_by_addr']:
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# FIXME - it's unclear what this section is for.
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# TODO filter this
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# print('DNS REQUEST: {}\t{}'.format(
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# networkoperation_section_dns_request_by_addr['@request_address'], # ip-dst
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# networkoperation_section_dns_request_by_addr['@result_name']) # hostname
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# ) # => NOT hostname|ip
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pass
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if 'networkoperation_section' in process and 'dns_request_by_name' in process['networkoperation_section']:
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for networkoperation_section_dns_request_by_name in process['networkoperation_section']['dns_request_by_name']:
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networkoperation_section_dns_request_by_name['@request_name'] = cleanup_hostname(networkoperation_section_dns_request_by_name['@request_name'].rstrip('.'))
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networkoperation_section_dns_request_by_name['@result_addresses'] = cleanup_ip(networkoperation_section_dns_request_by_name['@result_addresses'])
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if networkoperation_section_dns_request_by_name['@request_name'] and networkoperation_section_dns_request_by_name['@result_addresses']:
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val = '{}|{}'.format(networkoperation_section_dns_request_by_name['@request_name'],
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networkoperation_section_dns_request_by_name['@result_addresses'])
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# print("networkoperation_section_dns_request_by_name hostname|ip: {}|{} IDS:yes".format(
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# networkoperation_section_dns_request_by_name['@request_name'],
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# networkoperation_section_dns_request_by_name['@result_addresses'])
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# )
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yield({'values': val, 'type': 'domain|ip', 'categories': ['Network activity'], 'to_ids': True, 'comment': ''})
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elif networkoperation_section_dns_request_by_name['@request_name']:
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# print("networkoperation_section_dns_request_by_name hostname: {} IDS:yes".format(
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# networkoperation_section_dns_request_by_name['@request_name'])
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# )
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yield({'values': networkoperation_section_dns_request_by_name['@request_name'], 'type': 'hostname', 'to_ids': True, 'comment': ''})
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elif networkoperation_section_dns_request_by_name['@result_addresses']:
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# this happens when the IP is both in the request_name and result_address.
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# print("networkoperation_section_dns_request_by_name hostname: {} IDS:yes".format(
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# networkoperation_section_dns_request_by_name['@result_addresses'])
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# )
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yield({'values': networkoperation_section_dns_request_by_name['@result_addresses'], 'type': 'ip-dst', 'to_ids': True, 'comment': ''})
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if 'networkpacket_section' in process and 'connect_to_computer' in process['networkpacket_section']:
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for networkpacket_section_connect_to_computer in process['networkpacket_section']['connect_to_computer']:
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networkpacket_section_connect_to_computer['@remote_hostname'] = cleanup_hostname(networkpacket_section_connect_to_computer['@remote_hostname'])
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networkpacket_section_connect_to_computer['@remote_ip'] = cleanup_ip(networkpacket_section_connect_to_computer['@remote_ip'])
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if networkpacket_section_connect_to_computer['@remote_hostname'] and networkpacket_section_connect_to_computer['@remote_ip']:
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# print("networkpacket_section_connect_to_computer hostname|ip: {}|{} IDS:yes COMMENT:port {}".format(
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# networkpacket_section_connect_to_computer['@remote_hostname'],
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# networkpacket_section_connect_to_computer['@remote_ip'],
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# networkpacket_section_connect_to_computer['@remote_port'])
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# )
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val_combined = "{}|{}".format(networkpacket_section_connect_to_computer['@remote_hostname'], networkpacket_section_connect_to_computer['@remote_ip'])
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yield({'values': val_combined, 'type': 'domain|ip', 'to_ids': True, 'comment': ''})
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elif networkpacket_section_connect_to_computer['@remote_hostname']:
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# print("networkpacket_section_connect_to_computer hostname: {} IDS:yes COMMENT:port {}".format(
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# networkpacket_section_connect_to_computer['@remote_hostname'],
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# networkpacket_section_connect_to_computer['@remote_port'])
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# )
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val_combined = "{}|{}".format(networkpacket_section_connect_to_computer['@remote_hostname'], networkpacket_section_connect_to_computer['@remote_port'])
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yield({'values': val_combined, 'type': 'hostname|port', 'categories': ['Network activity'], 'to_ids': True, 'comment': ''})
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elif networkpacket_section_connect_to_computer['@remote_ip']:
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# print("networkpacket_section_connect_to_computer ip-dst: {} IDS:yes COMMENT:port {}".format(
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# networkpacket_section_connect_to_computer['@remote_ip'],
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# networkpacket_section_connect_to_computer['@remote_port'])
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# )
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val_combined = "{}|{}".format(networkpacket_section_connect_to_computer['@remote_ip'], networkpacket_section_connect_to_computer['@remote_port'])
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yield({'values': val_combined, 'type': 'ip-dst|port', 'to_ids': True, 'comment': ''})
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if 'registry_section' in process and 'create_key' in process['registry_section']:
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# FIXME this is a complicated section, together with the 'set_value'.
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# it looks like this section is not ONLY about creating registry keys,
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# more about accessing a handle to keys (with specific permissions)
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# maybe we don't want to keep this, in favor of 'set_value'
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for create_key in process['registry_section']['create_key']:
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# print('REG CREATE: {}\t{}'.format(
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# create_key['@desired_access'],
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# create_key['@key_name']))
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pass
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if 'registry_section' in process and 'delete_key' in process['registry_section']:
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# LATER we probably don't want to keep this. Much pollution.
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# Maybe for later once we have filtered out this.
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for delete_key in process['registry_section']['delete_key']:
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# print('REG DELETE: {}'.format(
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# delete_key['@key_name'])
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# )
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pass
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if 'registry_section' in process and 'set_value' in process['registry_section']:
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# FIXME this is a complicated section, together with the 'create_key'.
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for set_value in process['registry_section']['set_value']:
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# '@data_type' == 'REG_BINARY',
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# '@data_type' == 'REG_DWORD',
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# '@data_type' == 'REG_EXPAND_SZ',
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# '@data_type' == 'REG_MULTI_SZ',
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# '@data_type' == 'REG_NONE',
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# '@data_type' == 'REG_QWORD',
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# '@data_type' == 'REG_SZ',
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regkey = cleanup_regkey("{}\\{}".format(set_value['@key_name'], set_value['@value_name']))
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regdata = cleanup_regdata(set_value.get('@data'))
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if not regkey:
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continue
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if set_value['@data_size'] == '0' or not regdata:
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# print('registry_section set_value REG SET: {}\t{}\t{}'.format(
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# set_value['@data_type'],
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# set_value['@key_name'],
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# set_value['@value_name'])
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# )
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yield({'values': regkey, 'type': 'regkey', 'to_ids': True,
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'categories': ['External analysis', 'Persistence mechanism', 'Artifacts dropped'], 'comment': set_value['@data_type']})
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else:
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try:
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# unicode fun...
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# print('registry_section set_value REG SET: {}\t{}\t{}\t{}'.format(
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# set_value['@data_type'],
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# set_value['@key_name'],
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# set_value['@value_name'],
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# set_value['@data'])
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# )
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val = "{}|{}".format(regkey, regdata)
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yield({'values': val, 'type': 'regkey|value', 'to_ids': True,
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'categories': ['External analysis', 'Persistence mechanism', 'Artifacts dropped'], 'comment': set_value['@data_type']})
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except Exception as e:
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print("EXCEPTION registry_section {}".format(e))
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# TODO - maybe we want to handle these later, or not...
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pass
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pass
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if 'stored_files' in process and 'stored_created_file' in process['stored_files']:
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for stored_created_file in process['stored_files']['stored_created_file']:
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stored_created_file['@filename'] = cleanup_filepath(stored_created_file['@filename'])
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if stored_created_file['@filename']:
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if stored_created_file['@filesize'] != '0':
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val = '{}|{}'.format(stored_created_file['@filename'], stored_created_file['@md5'])
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# print("stored_created_file filename|md5: {}|{} IDS:yes".format(
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# stored_created_file['@filename'], # filename
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# stored_created_file['@md5']) # md5
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# ) # => filename|md5
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yield({'values': val, 'type': 'filename|md5', 'to_ids': True,
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'categories': ['Artifacts dropped', 'Payload delivery'], 'comment': ''})
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else:
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# print("stored_created_file filename: {} IDS:yes".format(
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# stored_created_file['@filename']) # filename
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# ) # => filename
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yield({'values': stored_created_file['@filename'],
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'type': 'filename', 'to_ids': True,
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'categories': ['Artifacts dropped', 'Payload delivery'], 'comment': ''})
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if 'stored_files' in process and 'stored_modified_file' in process['stored_files']:
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for stored_modified_file in process['stored_files']['stored_modified_file']:
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stored_modified_file['@filename'] = cleanup_filepath(stored_modified_file['@filename'])
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if stored_modified_file['@filename']:
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if stored_modified_file['@filesize'] != '0':
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val = '{}|{}'.format(stored_modified_file['@filename'], stored_modified_file['@md5'])
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# print("stored_modified_file MODIFY FILE: {}\t{}".format(
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# stored_modified_file['@filename'], # filename
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# stored_modified_file['@md5']) # md5
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# ) # => filename|md5
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yield({'values': val, 'type': 'filename|md5', 'to_ids': True,
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'categories': ['Artifacts dropped', 'Payload delivery'],
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'comment': 'modified'})
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|
else:
|
|
# print("stored_modified_file MODIFY FILE: {}\t{}".format(
|
|
# stored_modified_file['@filename']) # filename
|
|
# ) # => filename
|
|
yield({'values': stored_modified_file['@filename'], 'type': 'filename', 'to_ids': True,
|
|
'categories': ['Artifacts dropped', 'Payload delivery'],
|
|
'comment': 'modified'})
|
|
|
|
|
|
def add_file(filename, results, hash, index, filedata=None):
|
|
pass
|
|
# results.append({'values': filename, 'data': "{}|{}".format(filename, filedata.decode()), 'type': 'malware-sample',
|
|
# 'categories': ['Artifacts dropped', 'Payload delivery']})
|
|
|
|
|
|
def add_file_zip():
|
|
# if 'malware-sample' in request:
|
|
# sample_filename = request.get("malware-sample").split("|", 1)[0]
|
|
# data = base64.b64decode(data)
|
|
# fl = io.BytesIO(data)
|
|
# zf = zipfile.ZipFile(fl)
|
|
# sample_hashname = zf.namelist()[0]
|
|
# data = zf.read(sample_hashname, b"infected")
|
|
# zf.close()
|
|
pass
|
|
|
|
|
|
def print_json(data):
|
|
print(json.dumps(data, sort_keys=True, indent=4, separators=(',', ': ')))
|
|
|
|
|
|
def list_in_string(lst, data, regex=False):
|
|
for item in lst:
|
|
if regex:
|
|
if re.search(item, data, flags=re.IGNORECASE):
|
|
return True
|
|
else:
|
|
if item in data:
|
|
return True
|
|
|
|
|
|
def cleanup_ip(item):
|
|
# you should exclude private IP ranges via import regexes
|
|
noise_substrings = {
|
|
'224.0.0.',
|
|
'127.0.0.',
|
|
'8.8.8.8',
|
|
'8.8.4.4',
|
|
'0.0.0.0',
|
|
'NONE'
|
|
}
|
|
if list_in_string(noise_substrings, item):
|
|
return None
|
|
try:
|
|
ipaddress.ip_address(item)
|
|
return item
|
|
except ValueError:
|
|
return None
|
|
|
|
|
|
def cleanup_hostname(item):
|
|
noise_substrings = {
|
|
'wpad',
|
|
'teredo.ipv6.microsoft.com',
|
|
'WIN7SP1-x64-UNP'
|
|
}
|
|
# take away common known bad
|
|
if list_in_string(noise_substrings, item):
|
|
return None
|
|
# eliminate IP addresses
|
|
try:
|
|
ipaddress.ip_address(item)
|
|
except ValueError:
|
|
# this is not an IP, so continue
|
|
return item
|
|
return None
|
|
|
|
|
|
def cleanup_url(item):
|
|
if item in ['/']:
|
|
return None
|
|
return item
|
|
|
|
|
|
def cleanup_filepath(item):
|
|
noise_substrings = {
|
|
'\\AppData\\Local\\GDIPFONTCACHEV1.DAT',
|
|
'\\AppData\\Local\\Microsoft\\Internet Explorer\\DOMStore\\',
|
|
'\\AppData\\Local\\Microsoft\\Internet Explorer\\Recovery\\High\\',
|
|
'\\AppData\\Local\\Microsoft\\Windows\\Caches\\',
|
|
'\\AppData\\Local\\Microsoft\\Windows\\Explorer\\thumbcache',
|
|
'\\AppData\\Local\\Microsoft\\Windows\\History\\History.',
|
|
'\\AppData\\Local\\Microsoft\\Windows\\Temporary Internet Files\\Content.',
|
|
'\\AppData\\Local\\Microsoft\\Windows\\WebCache\\',
|
|
'\\AppData\\Local\\Temp\\.*tmp$',
|
|
'\\AppData\\LocalLow\\Microsoft\\CryptnetUrlCache\\',
|
|
'\\AppData\\LocalLow\\Microsoft\\Internet Explorer\\Services\\search_',
|
|
'\\AppData\\Roaming\\Microsoft\\Office\\Recent\\',
|
|
'\\AppData\\Roaming\\Microsoft\\Windows\\Cookies\\',
|
|
'\\AppData\\Roaming\\Microsoft\\Windows\\Recent\\',
|
|
'C:\\ProgramData\\Microsoft\\OfficeSoftwareProtectionPlatform\\Cache\\cache.dat',
|
|
'C:\\Windows\\Prefetch\\',
|
|
|
|
'\\AppData\\Roaming\\Adobe\\Acrobat\\9.0\\SharedDataEvents-journal',
|
|
'\\AppData\\Roaming\\Adobe\\Acrobat\\9.0\\UserCache.bin',
|
|
|
|
'\\AppData\\Roaming\\Macromedia\\Flash Player\\macromedia.com\\support\\flashplayer\\sys\\settings.sol',
|
|
'\\AppData\\Roaming\\Adobe\\Flash Player\\NativeCache\\',
|
|
'C:\\Windows\\AppCompat\\Programs\\',
|
|
'C:\\~' # caused by temp file created by MS Office when opening malicious doc/xls/...
|
|
}
|
|
if list_in_string(noise_substrings, item):
|
|
return None
|
|
return item
|
|
|
|
|
|
def cleanup_regkey(item):
|
|
noise_substrings = {
|
|
r'\\CurrentVersion\\Explorer\\FileExts\\[a-z\.]+\\OpenWith',
|
|
r'\\CurrentVersion\\Explorer\\RecentDocs\\',
|
|
r'\\CurrentVersion\\Explorer\\UserAssist\\',
|
|
r'\\Local Settings\\Software\\Microsoft\\Windows\\Shell\\Bag',
|
|
r'\\Software\\Classes\\CLSID\\',
|
|
r'\\Software\\Classes\\Local Settings\\MuiCache\\',
|
|
r'\\Software\\Microsoft\\Internet Explorer\\Main\\WindowsSearch',
|
|
r'\\Software\\Microsoft\\Office\\[0-9\.]+\\',
|
|
r'\\Software\\Microsoft\\Office\\Common\\Smart Tag\\',
|
|
r'\\Software\\Microsoft\\OfficeSoftwareProtectionPlatform\\',
|
|
r'\\Software\\Microsoft\\Shared Tools\\Panose\\',
|
|
r'\\Software\\Microsoft\\Tracing\\',
|
|
r'\\Software\\Microsoft\\Tracing\\powershell_RASAPI32\\',
|
|
r'\\Software\\Microsoft\\Tracing\\powershell_RASMANCS\\',
|
|
r'\\Software\\Microsoft\\Windows\\CurrentVersion\\Action Center\\',
|
|
r'\\Software\\Microsoft\\Windows\\CurrentVersion\\Explorer\\RunMRU\\',
|
|
r'\\Software\\Microsoft\\Windows\\CurrentVersion\\Installer\\UserData\\',
|
|
r'\\Software\\Microsoft\\Windows\\CurrentVersion\\Internet Settings\\',
|
|
r'\\System\\CurrentControlSet\\Services\\RdyBoost\\',
|
|
r'\\Usage\\SpellingAndGrammarFiles'
|
|
}
|
|
if list_in_string(noise_substrings, item, regex=True):
|
|
return None
|
|
return item
|
|
|
|
|
|
def cleanup_regdata(item):
|
|
if not item:
|
|
return None
|
|
item = item.replace('(UNICODE_0x00000000)', '')
|
|
return item
|
|
|
|
|
|
def get_zipped_contents(filename, data, password=None):
|
|
with zipfile.ZipFile(io.BytesIO(data), 'r') as zf:
|
|
unzipped_files = []
|
|
if password is not None:
|
|
password = str.encode(password) # Byte encoded password required
|
|
for zip_file_name in zf.namelist(): # Get all files in the zip file
|
|
# print(zip_file_name)
|
|
with zf.open(zip_file_name, mode='r', pwd=password) as fp:
|
|
file_data = fp.read()
|
|
unzipped_files.append({'values': zip_file_name,
|
|
'data': file_data,
|
|
'comment': 'Extracted from {0}'.format(filename)})
|
|
# print("{} : {}".format(zip_file_name, len(file_data)))
|
|
return unzipped_files
|
|
|
|
|
|
def introspection():
|
|
modulesetup = {}
|
|
try:
|
|
userConfig
|
|
modulesetup['userConfig'] = userConfig
|
|
except NameError:
|
|
pass
|
|
try:
|
|
inputSource
|
|
modulesetup['inputSource'] = inputSource
|
|
except NameError:
|
|
pass
|
|
return modulesetup
|
|
|
|
|
|
def version():
|
|
moduleinfo['config'] = moduleconfig
|
|
return moduleinfo
|