mirror of
https://github.com/mgeeky/Penetration-Testing-Tools.git
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234 lines
7.0 KiB
Python
234 lines
7.0 KiB
Python
#!/usr/bin/python3
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#
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# getOutboundControlled.py
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#
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# Collects first-degree and group-delegated outbound controlled objects number based on input node names list.
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#
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# Mariusz Banach / mgeeky
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#
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import sys
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import os
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import time
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import math
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from argparse import ArgumentParser, ArgumentDefaultsHelpFormatter
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try:
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from neo4j import GraphDatabase
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except ImportError:
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print('[!] "neo4j >= 1.7.0" required. Install it with: python3 -m pip install neo4j')
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#
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# ===========================================
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#
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config = {
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'host': 'bolt://localhost:7687',
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'user': 'neo4j',
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'pass': 'neo4j1',
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'output' : '',
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'include_group_delegated' : False
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}
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#
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# ===========================================
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#
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nodesToCheckPerStep = 10
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columns1 = 'name,outbound_first_degree'
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columns2 = 'name,outbound_first_degree,outbound_group_delegated'
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query_first_degree_outbound = '''
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MATCH p=(u)-[r1]->(n) WHERE r1.isacl=true AND (__CONDITION__)
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WITH u.name as name, COUNT(DISTINCT(n)) as controlled
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RETURN name, controlled
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'''
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query_group_delegated_outbound = '''
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MATCH p=(u)-[r1:MemberOf*1..]->(g:Group)-[r2]->(n) WHERE r2.isacl=true AND (__CONDITION__)
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WITH u.name as name, COUNT(DISTINCT(n)) as controlled
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RETURN name, controlled
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'''
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results = {}
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def checkNodes(tx, nodes):
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global results
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conditionList = []
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for node in nodes:
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conditionList.append(f'u.name = "{node}"')
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if node not in results.keys():
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results[node] = {
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'name' : node,
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'first-degree' : 0,
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'group-delegated': 0,
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}
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condition = ' OR '.join(conditionList)
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interimResults = {}
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for node in nodes:
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interimResults[node] = {
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'name' : node,
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'first-degree' : 0,
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'group-delegated' : 0,
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}
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# first-degree
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query = query_first_degree_outbound.replace('__CONDITION__', condition).strip().replace('\t', ' ').replace('\n', ' ')
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result1 = list(tx.run(query))
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for result in result1:
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interimResults[result['name']]['first-degree'] = result['controlled']
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if config['include_group_delegated']:
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# group delegated
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query = query_group_delegated_outbound.replace('__CONDITION__', condition).strip().replace('\t', ' ').replace('\n', ' ')
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result2 = list(tx.run(query))
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for result in result2:
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interimResults[result['name']]['group-delegated'] = result['controlled']
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results.update(interimResults)
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if len(config['output']) > 0:
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output = ''
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for k, v in interimResults.items():
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if config['include_group_delegated']:
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output += f"{v['name']},{v['first-degree']},{v['group-delegated']}\n"
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else:
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output += f"{v['name']},{v['first-degree']}\n"
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with open(config['output'], 'a') as f:
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f.write(output)
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def log(x):
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sys.stderr.write(x + '\n')
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def opts(args):
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global config
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parser = ArgumentParser(description = 'getOutboundControlled.py - collects first-degree and group-delegated outbound controlled objects number based on input node names list.', formatter_class = ArgumentDefaultsHelpFormatter)
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parser.add_argument('-H', '--host', dest = 'host', help = 'Neo4j BOLT URI', default = 'bolt://localhost:7687')
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parser.add_argument('-u', '--user', dest = 'user', help = 'Neo4j User', default = 'neo4j')
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parser.add_argument('-p', '--password', dest = 'pass', help = 'Neo4j Password', default = 'neo4j1')
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parser.add_argument('-g', '--include-group-delegated', dest = 'include_group_delegated', action='store_true', help = 'To optimize time the script by default only computes number of first-degree outbound controlled objects. Use this option to include in final results also group-delegated numbers (takes considerable time to evaluate!)')
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parser.add_argument('-o', '--output', default = '', dest = 'output', help = 'Write output to CSV file specified by this path.')
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parser.add_argument('nodesList', help = 'Path to file containing list of node names to check. Lines starting with "#" will be skipped.')
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arguments = parser.parse_args()
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config.update(vars(arguments))
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return arguments
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def main(argv):
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if len(argv) < 2:
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print('''
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Takes a file containing node names on input and computes number of Outbound controlled objects by those nodes.
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Usage: ./getOutboundControlled.py [options] <nodes-file>
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''')
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return False
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args = opts(argv)
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nodesFile = args.nodesList
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programStart = time.time()
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if not os.path.isfile(nodesFile):
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log(f'[!] Input file containing nodes does not exist: "{nodesFile}"!')
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return False
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nodes = []
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with open(nodesFile) as f:
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for x in f.readlines():
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if x.strip().startswith('#'):
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continue
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if not '@' in x:
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raise Exception('Node names must include "@" and be in form: NAME@DOMAIN !')
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nodes.append(x.strip())
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try:
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driver = GraphDatabase.driver(
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config['host'],
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auth = (config['user'], config['pass']),
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encrypted = False,
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connection_timeout = 10,
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keep_alive = True
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)
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except Exception as e:
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log(f'[-] Could not connect to the neo4j database. Reason: {str(e)}')
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return False
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finishEta = 0.0
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totalTime = 0.0
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runs = 0
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columns = ''
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try:
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with driver.session() as session:
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log('[+] Connected to database. Working...')
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output = ''
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if config['include_group_delegated']:
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columns = columns2
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else:
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columns = columns1
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if config['output'] != '':
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with open(config['output'], 'w') as f:
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f.write(columns + '\n')
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for a in range(0, len(nodes), nodesToCheckPerStep):
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b = a + min(nodesToCheckPerStep, len(nodes) - a)
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start = time.time()
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checkNodes(session, nodes[a:b])
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stop = time.time()
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totalTime += (stop - start)
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runs += 1
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finishEta = ((len(nodes) / nodesToCheckPerStep) - runs) * (totalTime / float(runs))
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if finishEta < 0:
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finishEta = 0
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log(f'[+] Checked {b}/{len(nodes)} nodes in {stop - start:.3f} seconds. Finish ETA: in {finishEta:.3f} seconds.')
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except KeyboardInterrupt:
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log('[.] User interrupted.')
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driver.close()
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return False
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driver.close()
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programStop = time.time()
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log(f'\n[+] Nodes checked in {programStop - programStart:.3f} seconds.')
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if config['output'] == '':
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print(columns)
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for k, v in results.items():
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if config['include_group_delegated']:
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output += f"{v['name']},{v['first-degree']},{v['group-delegated']}\n"
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else:
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output += f"{v['name']},{v['first-degree']}\n"
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print(output)
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else:
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log(f'[+] Finished. Results written to file:\n\t{config["output"]}')
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if __name__ == '__main__':
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main(sys.argv)
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