Esempio n. 1
0
def discoverPLCs(): # Function to discover any PLC on the network
    ips, slots, progName = [], [], []
    try:
        discovery = CIPDriver.discover() # Return list of all CIP devices on the network
        for device in discovery: # Go through discovery list and append any PLC#'s to a list
            if device['product_type'] == "Programmable Logic Controller":
                ips.append(device['ip_address'])        
        if len(ips) > 0: # Print the discovered PLC's, if there are any
            ips.sort() # Sort the IP address in ascending order
            table = Table(box=box.ROUNDED) # Create table 
            table.add_column('#', justify='center') # Add column
            table.add_column('Device Type', justify='center') # Add column
            table.add_column('IP Address', justify='center') # Add column
            table.add_column('Slot #', justify='center') # Add column
            table.add_column('Program Name', justify='center') # Add column
            for i, ip in enumerate(ips): # Add row for each PLC discovered
                slots.append('Unknown')
                progName.append('Unknown')
                for slot in range(1, 18):
                    try:
                        plc = LogixDriver(f'{plc}/{str(slot)}', init_tags=False)
                        if plc.open():
                            slots[i] = slot
                            progName[i] = plc.get_plc_name()
                            plc.close()
                            break
                    except:
                        continue
                table.add_row(str(i+1), 'Programmable Logic Controller', ip, str(slots[i]), progName[i])
            print(table)
        else:
            print("No PLC's discovered on the network")
    except Exception:
        traceback.print_exc()
Esempio n. 2
0
def test_discover():
    from pycomm3 import CIPDriver
    devices = CIPDriver.discover()

    expected = [
        {'encap_protocol_version': 1, 'ip_address': '192.168.1.237',
        'vendor': 'Rockwell Automation/Allen-Bradley', 'product_type': 'Communications Adapter',
        'product_code': 185, 'revision': {'major': 2, 'minor': 7},

        'serial': '73015738', 'product_name': '1763-L16BWA B/7.00', 'state': 0},
       {'encap_protocol_version': 1, 'ip_address': '192.168.1.236',
        'vendor': 'Rockwell Automation/Allen-Bradley', 'product_type':
        'Communications Adapter', 'product_code': 191, 'revision': {'major': 20, 'minor': 19},
        'serial': 'c01ebe90', 'product_name': '1769-L23E-QBFC1 Ethernet Port', 'state': 3},

       # {'encap_protocol_version': 1, 'ip_address': '192.168.1.125', 'vendor': 'Rockwell Software, Inc.',
       #  'product_type': 'Communications Adapter', 'product_code': 115, 'revision': {'major': 12, 'minor': 1},
       #   'serial': '21ac1903', 'product_name': 'DESKTOP-907P98D', 'state': 255}
    ]

    # status can change based on number of connections or other reasons
    # just check to make sure it has a value then remove it from the
    # rest of the device info
    # for device in devices:
    #     assert 'status' in device
    #     del device['status']
    #     assert device in expected
    for device in devices:
        assert 'ip_address' in device
        assert 'vendor' in device
        assert 'product_type' in device
        assert 'product_code' in device
        assert 'revision' in device