示例#1
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def test_time_in_sql():
    ''' Test whether updating the time works when you manually
    update it with execute SQL. This was done because, for some
    reason, the 'set_dependents_as_updated' method was failing
    while this wasn't. (Ended up that I had forgotten to actually
    update the devices table among everything else...)
    '''
    
    with fakeDevice() as f:
        db= io_sql.device_db()
        record= db.get_device_record('device_id', f['index'])
        oldtime= record['updated']
        print(oldtime)
        del(db)
        
        sleep(.5)
        db= io_sql.device_db()
        db.execute_sql('''
            UPDATE devices
            SET updated = now()
            where device_id = %s;
        ''', (f['index'], ), fetch= False)
        
        record2= db.get_device_record('device_id', f['index'])
        print('Index: ', f['index'])
        print('New Time: ', record2['updated'])
        
        assert oldtime != record2['updated']
示例#2
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def fakeDevice():
    ''' Helper function to create a fake device and add 
    it to the database, then clean it up afterwards'''

    db = io_sql.device_db()
    device = populated_cisco_network_device()

    assert not db.exists(unique_name=device.unique_name,
                         device_name=device.device_name)

    index = db.add_device_nd(device)

    # Make sure the device was created
    assert db.exists(device_id=index)
    assert device.device_id == index

    # Close the connection to prevent too many connections accumulating
    db.conn.commit()
    del (db)

    yield {'index': index, 'device': device}

    # After we're done with it, delete it
    db = io_sql.device_db()
    db.delete_device_record(index)
示例#3
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def locate(macs):
    ddb= device_db()
    mp = MacParser()
    
    # If just one mac was passed, make sure it works
    if not isinstance(macs, list):
        macs= [macs]
    
    for mac in macs:
        
        
        t = PrettyTable(['Device Name', 'Interface', 'CDP Neighbors'])
        t.align = 'l'
        
        print('MAC: ', mac)
        
        # Normalize the MAC
        mac = util.ucase_letters(mac)
        
        manuf= mp.get_manuf(mac)
        comment= mp.get_comment(mac)
        print('Manufacturer: ', manuf, ', ', comment)
        
        locations= ddb.locate_mac(mac)
        if len(locations) == 0:
            print('No matches found')
        else:
            for match in locations: t.add_row(match)
            print(t, '\n')
示例#4
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def test_devicedb_get_record():
    '''The SQL database columns should match up with the names of 
    attributes in the base network device_class'''
    
    db= device_db()
    
    # Create a fake device and add it to the database
    with fakeDevice() as f:
        
        record= db.get_device_record('device_id', f['index'])
        
        assert isinstance(record, psycopg2.extras.DictRow) , 'Record is type [{}]'.format(type(record))
        
        print('Database Columns:\n', [k for k in record.keys()])
        print('Class Attributes:\n', [item for item in dir(f['device']) if not item.startswith("__")])
        
        # Make sure that the records in the database have a matching class variable
        # and that the values are the same
        for k, v in record.items():
            
            # We dont care about 'updated'
            if k == 'updated': continue
            
            assert hasattr(f['device'], k)
            assert getattr(f['device'], k) == v
示例#5
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def test_fake_device():
    db = io_sql.device_db()

    with fakeDevice() as f:
        assert db.exists(device_id=f['index'])

    assert not db.exists(device_id=f['index'])
示例#6
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def run_find_unknown_switches(filter_device_name=[],
                              filter_interface_name=[],
                              filter_manufacturer=[],
                              min_macs=3):

    db = device_db()

    where_clause = ''
    for x in filter_device_name:
        where_clause += " AND devices.device_name not like '%{}%' ".format(x)

    for x in filter_interface_name:
        where_clause += " AND interface_name not like '%{}%' ".format(x)

    results = db.execute_sql('''
        -- Get all interfaces which have more than one MAC address attached to it but no CDP Neighbors
        SELECT 
            devices.device_name, 
            interfaces.interface_id,
            interface_name, 
            count(mac_address) as macs
        FROM 
            interfaces 
        JOIN mac on interfaces.interface_id = mac.interface_id
        JOIN devices on devices.device_id=mac.device_id
        FULL OUTER JOIN neighbors on neighbors.interface_id=mac.interface_id
        
        WHERE 
            -- Remove some common false positives
            devices.device_name not like '%ven%' AND
            interface_name not like '%sup%' AND
            interface_name not like '%ort%' AND
            interface_name not like '%lan%' 
            {}
        GROUP BY 
            devices.device_name, 
            interface_name,
            interfaces.interface_id
        HAVING 
            -- Select only interfaces with more than 3 MACs and no CDP neighbors
            count(mac_address) >= {} AND 
            count(neighbors) = 0
            
        ORDER BY devices.device_name, macs DESC;
        '''.format(where_clause, min_macs))

    output = _generate_table(results)
    print(output)

    for interf in results:

        manufs = _get_entry_manufacturers(interf, filter_manufacturer, db)
        if manufs is None: continue

        output += '\n\n Device Report: {} - {}\n'.format(interf[0], interf[2])

        output += manufs

    _write_report(output)
示例#7
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def run_audit(csv_path):
    '''
    Given a CSV of subnets and MAC addresses, search the database
    for all MACs on subnets which match those in the CSV. Compare 
    each MAC and output a new csv with any matching MAC's listed 
    by confidence (number of matching characters, starting from the 
    OUI.
    This can be used, for example, for a Wireless Rogue SSID audit,
    for which the MAC address of the radios is known and you want to
    find out which rogue AP's are physically connected to your network.
    '''
    
    if config.cc.modified is False:
        config.parse_config()
    
    # Open the input CSV
    entries= _open_csv(csv_path)
    csv_subnets= sort_csv_by_subnet(entries)
    
    print ('CSV Len: ', len(csv_subnets))
    
    device_db = io_sql.device_db()

    results=[]
    mp = MacParser(update=True)
    
    # Iterate over each subnet where a rogue was detected
    for subnet in sorted(csv_subnets):
        
        print('Subnet: ', subnet)
        
        # Iterate over each mac in the subnet
        for mac in device_db.macs_on_subnet(subnet):
            
            # Iterate over each mac in the CSV subnet and 
            # find matches
            for csv_row in csv_subnets[subnet]:
                x= evaluate_mac(mac, csv_row['mac'])
                if x > 50:
                    csv_row= dict(csv_row)
                    csv_row['confidence'] = x
                    csv_row['wired_mac'] = mac
                    csv_row['Manufacturer'] = mp.search(mac)

                    results.append(csv_row)
                        
            
    results= sorted(results, key=lambda x: x['confidence'], reverse=True)
    if len(results) == 0: return False
    
    write_csv(results)
    write_report(results)
示例#8
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def test_set_dependents_as_updated():
    with fakeDevice() as f:
        db= io_sql.device_db()
        
        record= db.get_device_record('device_id', f['index'])
        oldtime= record['updated']
        print(type(oldtime))
        print(oldtime)
        del(db)
        
        sleep(.5)
        config.cc.debug= True
        config.cc.verbosity= 6
        
        db= io_sql.device_db()
        db.set_dependents_as_updated(device_id= f['index'])
        newrecord= db.get_device_record('device_id', f['index'])
        
        
        print(type(newrecord['updated']))
        print(newrecord['updated'])
        
        assert oldtime != newrecord['updated']
示例#9
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def test_update_device():
    
    with fakeDevice() as f:
        db= io_sql.device_db()
        
        record= db.get_device_record('device_id', f['index'])
        assert f['device'].device_name == record['device_name']
        
        # Change the device name
        f['device'].device_name= 'something'
        
        db.update_device_entry(f['device'], device_id= f['index'])
        
        record= db.get_device_record('device_id', f['index'])
        assert f['device'].device_name == 'something'
示例#10
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def test_process_duplicate_device():

    # Connect to the database
    ddb = io_sql.device_db()

    # Create a fake device and make sure it doesn't exist
    device = helpers.populated_cisco_network_device()
    assert not ddb.exists(unique_name=device.unique_name,
                          device_name=device.device_name)

    ddb.add_device_nd(device)
    assert ddb.exists(unique_name=device.unique_name)

    duplicate = core.process_duplicate_device(device, ddb)

    assert duplicate
示例#11
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def test_devicedb_exists_functions():
    db= io_sql.device_db()
    
    device= helpers.populated_cisco_network_device()
    
    assert not db.exists(unique_name= device.unique_name, 
                         device_name= device.device_name)
    index= db.add_device_nd(device)
    
    # Test the different types of exists statements
    assert db.exists(device_id= index)
    assert db.exists(device_name= device.device_name)
    assert db.exists(unique_name= device.unique_name)
    
    db.delete_device_record(index)
    
    # Test the different types of exists statements
    assert not db.exists(device_id= index)
    assert not db.exists(device_name= device.device_name)
    assert not db.exists(unique_name= device.unique_name)
示例#12
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def write_report(rows):
    from datetime import datetime
    ddb= device_db()
    
    path= os.path.join(config.cc.run_path, 'mac_audit_report.txt')
    with open(path, 'w') as outfile:
        outfile.write(textwrap.dedent('''\
            Title:  Rogue Device Report
            Time:   {}
            
            Note: In the neighbor table for each match, the interface with no 
                    neighbor or a neighbor which is an obvious non-network 
                    device (such as a phone) is the most likely interface to be 
                    directly connected to the matched MAC.
            
            '''.format(datetime.now().strftime(config.cc.pretty_time))))
        
        for x in rows:
            # Get the neighbors
            locations= ddb.locate_mac(x['wired_mac'])
            result=  '\n\n'
            
            result+= '{:12}: {}\n'.format('Matched Mac', x.pop('mac'))
            result+= '{:12}: {}\n'.format('Wired Mac', x.pop('wired_mac'))
            result+= '{:12}: {}\n'.format('Confidence', x.pop('confidence'))
            result+= '{:12}: {}\n'.format('Manufacturer', x.pop('Manufacturer'))

            result+= '\n'.join(['{:12}: {}'.format(k, v) for k, v in sorted(x.items())])
            result+= '\n\nWhere this MAC was seen:\n'
            
            t = PrettyTable(['Device Name', 'Interface', 'Neighbors'])
            t.align = 'l'

            for match in locations: t.add_row(match)
            
            result+= str(t) + '\n'
                
            outfile.write(result)
    print('Finished writing report to [{}]'.format(path))