#!/usr/bin/python3 # # This script takes an input file containing Node names to be marked in Neo4j database as # owned = True. The strategy for working with neo4j and Bloodhound becomes fruitful during # complex Active Directory Security Review assessments or Red Teams. Imagine you've kerberoasted # a number of accounts, access set of workstations or even cracked userPassword hashes. Using this # script you can quickly instruct Neo4j to mark that principals as owned, which will enrich your # future use of BloodHound. # # Mariusz B. / mgeeky # import sys import os import time try: from neo4j import GraphDatabase except ImportError: print('[!] "neo4j >= 1.7.0" required. Install it with: python3 -m pip install neo4j') # # =========================================== # # Specify neo4j connection details NEO4J_CONNECTION_DETAILS = \ { 'Host': '127.0.0.1', # neo4j listening address. 'Port': 7687, # Bolt port 'User': 'neo4j', 'Pass': 'neo4j1' } # # =========================================== # # # Construct a MATCH ... SET owned=TRUE query of not more than this number of nodes. # This number impacts single query execution time. If it is more than 1000, neo4j may complain # about running out of heap memory space (java...). # numberOfNodesToAddPerStep = 500 def markNodes(tx, nodes): query = '' for i in range(len(nodes)): n = nodes[i] query += 'MATCH (n {name: "' + n + '"}) SET n.owned = TRUE ' if i < len(nodes) - 1: query += 'UNION ' tx.run(query) def main(argv): if len(argv) != 2: print(''' Takes a file containing node names on input and marks them as Owned in specified neo4j database. Usage: ./markOwnedNodesInNeo4j.py ''') return False nodesFile = argv[1] programStart = time.time() if not os.path.isfile(nodesFile): print(f'[!] Input file containing nodes does not exist: "{nodesFile}"!') return False nodes = [] with open(nodesFile) as f: nodes = [x.strip() for x in f.readlines()] try: driver = GraphDatabase.driver( f"bolt://{NEO4J_CONNECTION_DETAILS['Host']}:{NEO4J_CONNECTION_DETAILS['Port']}", auth = (NEO4J_CONNECTION_DETAILS['User'], NEO4J_CONNECTION_DETAILS['Pass']), encrypted = False, connection_timeout = 10, max_retry_time = 5, keep_alive = True ) except Exception as e: print(f'[-] Could not connect to the neo4j database. Reason: {str(e)}') return False print('[.] Connected to neo4j instance.') if len(nodes) >= 200: print('[*] Warning: Working with a large number of nodes may be time-consuming in large databases.') print('\te.g. setting 1000 nodes as owned can take up to 10 minutes easily.') print() finishEta = 0.0 totalTime = 0.0 runs = 0 try: with driver.session() as session: for a in range(0, len(nodes), numberOfNodesToAddPerStep): b = a + min(numberOfNodesToAddPerStep, len(nodes) - a) print(f'[.] Marking nodes ({a}..{b}) ...') start = time.time() session.write_transaction(markNodes, nodes[a:b]) stop = time.time() totalTime += (stop - start) runs += 1 finishEta = ((len(nodes) / numberOfNodesToAddPerStep) - runs) * (totalTime / float(runs)) if finishEta < 0: finishEta = 0 print(f'[+] Marked {b-a} nodes in {stop - start:.3f} seconds. Finish ETA: in {finishEta:.3f} seconds.') except KeyboardInterrupt: print('[.] User interruption.') driver.close() return False driver.close() programStop = time.time() print(f'\n[+] Nodes marked as owned successfully in {programStop - programStart:.3f} seconds.') if __name__ == '__main__': main(sys.argv)