#!/usr/bin/env python3 from git import Repo, exc, RemoteProgress from collections import Counter from datetime import datetime import yaml import pynetbox import glob import argparse import os import settings import sys import re counter = Counter( added=0, updated=0, manufacturer=0, module_added=0, module_port_added=0, ) def determine_features(nb): '''Automatically determine the netbox features available. Currently only checks for existence of module-types. Args: nb: pynetbox API instance Returns: None Raises: None ''' # nb.version should be the version in the form '3.2' nb_ver = [int(x) for x in nb.version.split('.')] # Later than 3.2 # Might want to check for the module-types entry as well? if nb_ver[0] > 3 or (nb_ver[0] == 3 and nb_ver[1] >= 2): settings.NETBOX_FEATURES['modules'] = True def update_package(path: str, branch: str): try: repo = Repo(path) if repo.remotes.origin.url.endswith('.git'): repo.remotes.origin.pull() repo.git.checkout(branch) print(f"Pulled Repo {repo.remotes.origin.url}") except exc.InvalidGitRepositoryError: pass def slugFormat(name): return re.sub('\W+','-', name.lower()) YAML_EXTENSIONS = ['yml', 'yaml'] def getFiles(vendors=None): files = [] discoveredVendors = [] base_path = './repo/device-types/' if vendors: for r, d, f in os.walk(base_path): for folder in d: for vendor in vendors: if vendor.lower() == folder.lower(): discoveredVendors.append({'name': folder, 'slug': slugFormat(folder)}) for extension in YAML_EXTENSIONS: files.extend(glob.glob(base_path + folder + f'/*.{extension}')) else: for r, d, f in os.walk(base_path): for folder in d: if folder.lower() != "Testing": discoveredVendors.append({'name': folder, 'slug': slugFormat(folder)}) for extension in YAML_EXTENSIONS: files.extend(glob.glob(base_path + f'[!Testing]*/*.{extension}')) return files, discoveredVendors def get_files_modules(vendors=None): '''Get files list for modules. Args: vendors: List of vendors to sync or None to sync all vendors. Returns: A 2-tuple of: - list of filenames found - list of vendors found ''' files = [] discoveredVendors = [] base_path = './repo/module-types/' if vendors: for r, d, f in os.walk(base_path): for folder in d: for vendor in vendors: if vendor.lower() == folder.lower(): discoveredVendors.append({'name': folder, 'slug': slugFormat(folder)}) for extension in YAML_EXTENSIONS: files.extend( glob.glob( base_path + folder + f'/*.{extension}' ) ) else: for r, d, f in os.walk(base_path): for folder in d: if folder.lower() != "Testing": discoveredVendors.append({'name': folder, 'slug': slugFormat(folder)}) for extension in YAML_EXTENSIONS: files.extend(glob.glob(base_path + f'[!Testing]*/*.{extension}')) return files, discoveredVendors def readYAMl(files, **kwargs): slugs = kwargs.get('slugs', None) deviceTypes = [] manufacturers = [] for file in files: with open(file, 'r') as stream: try: data = yaml.safe_load(stream) except yaml.YAMLError as exc: print(exc) continue manufacturer = data['manufacturer'] data['manufacturer'] = {} data['manufacturer']['name'] = manufacturer data['manufacturer']['slug'] = slugFormat(manufacturer) if slugs and data['slug'] not in slugs: print(f"Skipping {data['model']}") continue deviceTypes.append(data) manufacturers.append(manufacturer) return deviceTypes def read_yaml_modules(files, **kwargs): slugs = kwargs.get('slugs', None) module_types = [] manufacturers = [] for file in files: with open(file, 'r') as stream: try: data = yaml.safe_load(stream) except yaml.YAMLError as exc: print(exc) continue manufacturer = data['manufacturer'] data['manufacturer'] = {} data['manufacturer']['name'] = manufacturer data['manufacturer']['slug'] = slugFormat(manufacturer) if slugs and data['slug'] not in slugs: print(f"Skipping {data['model']}") continue module_types.append(data) manufacturers.append(manufacturer) return module_types def createManufacturers(vendors, nb): all_manufacturers = {str(item): item for item in nb.dcim.manufacturers.all()} need_manufacturers = [] for vendor in vendors: try: manGet = all_manufacturers[vendor["name"]] print(f'Manufacturer Exists: {manGet.name} - {manGet.id}') except KeyError: need_manufacturers.append(vendor) if not need_manufacturers: return try: manSuccess = nb.dcim.manufacturers.create(need_manufacturers) for man in manSuccess: print(f'Manufacturer Created: {man.name} - ' + f'{man.id}') counter.update({'manufacturer': 1}) except pynetbox.RequestError as e: print(e.error) def createInterfaces(interfaces, deviceType, nb): all_interfaces = {str(item): item for item in nb.dcim.interface_templates.filter(devicetype_id=deviceType)} need_interfaces = [] for interface in interfaces: try: ifGet = all_interfaces[interface["name"]] print(f'Interface Template Exists: {ifGet.name} - {ifGet.type}' + f' - {ifGet.device_type.id} - {ifGet.id}') except KeyError: interface['device_type'] = deviceType need_interfaces.append(interface) if not need_interfaces: return try: ifSuccess = nb.dcim.interface_templates.create(need_interfaces) for intf in ifSuccess: print(f'Interface Template Created: {intf.name} - ' + f'{intf.type} - {intf.device_type.id} - ' + f'{intf.id}') counter.update({'updated': 1}) except pynetbox.RequestError as e: print(e.error) def create_module_interfaces(interfaces, module_type, nb): all_interfaces = {str(item): item for item in nb.dcim.interface_templates.filter(moduletype_id=module_type)} need_interfaces = [] for interface in interfaces: try: if_res = all_interfaces[interface["name"]] print(f'Interface Template Exists: {if_res.name} - {if_res.type}' + f' - {if_res.module_type.id} - {if_res.id}') except KeyError: interface['module_type'] = module_type need_interfaces.append(interface) if not need_interfaces: return try: ifSuccess = nb.dcim.interface_templates.create(need_interfaces) for intf in ifSuccess: print(f'Interface Template Created: {intf.name} - ' + f'{intf.type} - {intf.module_type.id} - ' + f'{intf.id}') counter.update({'module_port_added': 1}) except pynetbox.RequestError as e: print(e.error) def createConsolePorts(consoleports, deviceType, nb): all_consoleports = {str(item): item for item in nb.dcim.console_port_templates.filter(devicetype_id=deviceType)} need_consoleports = [] for consoleport in consoleports: try: cpGet = all_consoleports[consoleport["name"]] print(f'Console Port Template Exists: {cpGet.name} - ' + f'{cpGet.type} - {cpGet.device_type.id} - {cpGet.id}') except KeyError: consoleport['device_type'] = deviceType need_consoleports.append(consoleport) if not need_consoleports: return try: cpSuccess = nb.dcim.console_port_templates.create(need_consoleports) for port in cpSuccess: print(f'Console Port Created: {port.name} - ' + f'{port.type} - {port.device_type.id} - ' + f'{port.id}') counter.update({'updated': 1}) except pynetbox.RequestError as e: print(e.error) def create_module_console_ports(consoleports, module_type, nb): all_consoleports = {str(item): item for item in nb.dcim.console_port_templates.filter(moduletype_id=module_type)} need_consoleports = [] for consoleport in consoleports: try: cpGet = all_consoleports[consoleport["name"]] print(f'Console Port Template Exists: {cpGet.name} - ' + f'{cpGet.type} - {cpGet.module_type.id} - {cpGet.id}') except KeyError: consoleport['module_type'] = module_type need_consoleports.append(consoleport) if not need_consoleports: return try: cpSuccess = nb.dcim.console_port_templates.create(need_consoleports) for port in cpSuccess: print(f'Console Port Created: {port.name} - {port.type} - ' + f'{port.module_type.id} - {port.id}') counter.update({'module_port_added': 1}) except pynetbox.RequestError as e: print(f"Error creating module console port: {e.error}") def createPowerPorts(powerports, deviceType, nb): all_power_ports = {str(item): item for item in nb.dcim.power_port_templates.filter(devicetype_id=deviceType)} need_power_ports = [] for powerport in powerports: try: ppGet = all_power_ports[powerport["name"]] print(f'Power Port Template Exists: {ppGet.name} - ' + f'{ppGet.type} - {ppGet.device_type.id} - {ppGet.id}') except KeyError: powerport['device_type'] = deviceType need_power_ports.append(powerport) if not need_power_ports: return try: ppSuccess = nb.dcim.power_port_templates.create(need_power_ports) for pp in ppSuccess: print(f'Interface Template Created: {pp.name} - ' + f'{pp.type} - {pp.device_type.id} - ' + f'{pp.id}') counter.update({'updated': 1}) except pynetbox.RequestError as e: print(e.error) def create_module_power_ports(powerports, module_type, nb): all_power_ports = {str(item): item for item in nb.dcim.power_port_templates.filter(moduletype_id=module_type)} need_power_ports = [] for powerport in powerports: try: ppGet = all_power_ports[powerport["name"]] print(f'Power Port Template Exists: {ppGet.name} - ' + f'{ppGet.type} - {ppGet.module_type.id} - {ppGet.id}') except KeyError: powerport['module_type'] = module_type need_power_ports.append(powerport) if not need_power_ports: return try: ppSuccess = nb.dcim.power_port_templates.create(need_power_ports) for pp in ppSuccess: print(f'Power port template created: {pp.name} - ' + f'{pp.type} - {pp.module_type.id} - {pp.id}') counter.update({'module_port_added': 1}) except pynetbox.RequestError as e: print(e.error) def createConsoleServerPorts(consoleserverports, deviceType, nb): all_consoleserverports = {str(item): item for item in nb.dcim.console_server_port_templates.filter(devicetype_id=deviceType)} need_consoleserverports = [] for csport in consoleserverports: try: cspGet = all_consoleserverports[csport["name"]] print(f'Console Server Port Template Exists: {cspGet.name} - ' + f'{cspGet.type} - {cspGet.device_type.id} - ' + f'{cspGet.id}') except KeyError: csport['device_type'] = deviceType need_consoleserverports.append(csport) if not need_consoleserverports: return try: cspSuccess = nb.dcim.console_server_port_templates.create( need_consoleserverports) for csp in cspSuccess: print(f'Console Server Port Created: {csp.name} - ' + f'{csp.type} - {csp.device_type.id} - ' + f'{csp.id}') counter.update({'updated': 1}) except pynetbox.RequestError as e: print(e.error) def create_module_console_server_ports(consoleserverports, module_type, nb): all_consoleserverports = {str(item): item for item in nb.dcim.console_server_port_templates.filter(moduletype_id=module_type)} need_consoleserverports = [] for csport in consoleserverports: try: cspGet = all_consoleserverports[csport["name"]] print(f'Console Server Port Template Exists: {cspGet.name} - ' + f'{cspGet.type} - {cspGet.module_type.id} - ' + f'{cspGet.id}') except KeyError: csport['module_type'] = module_type need_consoleserverports.append(csport) if not need_consoleserverports: return try: cspSuccess = nb.dcim.console_server_port_templates.create( need_consoleserverports) for csp in cspSuccess: print(f'Console Server Port Created: {csp.name} - ' + f'{csp.type} - {csp.module_type.id} - ' + f'{csp.id}') counter.update({'module_port_added': 1}) except pynetbox.RequestError as e: print(e.error) def createFrontPorts(frontports, deviceType, nb): all_frontports = {str(item): item for item in nb.dcim.front_port_templates.filter(devicetype_id=deviceType)} need_frontports = [] for frontport in frontports: try: fpGet = all_frontports[frontport["name"]] print(f'Front Port Template Exists: {fpGet.name} - ' + f'{fpGet.type} - {fpGet.device_type.id} - {fpGet.id}') except KeyError: frontport['device_type'] = deviceType need_frontports.append(frontport) if not need_frontports: return all_rearports = {str(item): item for item in nb.dcim.rear_port_templates.filter(devicetype_id=deviceType)} for port in need_frontports: try: rpGet = all_rearports[port["rear_port"]] port['rear_port'] = rpGet.id except KeyError: print(f'Could not find Rear Port for Front Port: {port["name"]} - ' + f'{port["type"]} - {deviceType}') try: fpSuccess = nb.dcim.front_port_templates.create(need_frontports) for fp in fpSuccess: print(f'Front Port Created: {fp.name} - ' + f'{fp.type} - {fp.device_type.id} - ' + f'{fp.id}') counter.update({'updated': 1}) except pynetbox.RequestError as e: print(e.error) def create_module_front_ports(frontports, module_type, nb): all_frontports = {str(item): item for item in nb.dcim.front_port_templates.filter(moduletype_id=module_type)} need_frontports = [] for frontport in frontports: try: fpGet = all_frontports[frontport["name"]] print(f'Front Port Template Exists: {fpGet.name} - ' + f'{fpGet.type} - {fpGet.module_type.id} - {fpGet.id}') except KeyError: frontport['module_type'] = module_type need_frontports.append(frontport) if not need_frontports: return all_rearports = {str(item): item for item in nb.dcim.rear_port_templates.filter(moduletype_id=module_type)} for port in need_frontports: try: rpGet = all_rearports[port["rear_port"]] port['rear_port'] = rpGet.id except KeyError: print(f'Could not find Rear Port for Front Port: {port["name"]} - ' + f'{port["type"]} - {module_type}') try: fpSuccess = nb.dcim.front_port_templates.create(need_frontports) for fp in fpSuccess: print(f'Front Port Created: {fp.name} - ' + f'{fp.type} - {fp.module_type.id} - ' + f'{fp.id}') counter.update({'module_port_added': 1}) except pynetbox.RequestError as e: print(e.error) def createRearPorts(rearports, deviceType, nb): all_rearports = {str(item): item for item in nb.dcim.rear_port_templates.filter(devicetype_id=deviceType)} need_rearports = [] for rearport in rearports: try: rpGet = all_rearports[rearport["name"]] print(f'Rear Port Template Exists: {rpGet.name} - {rpGet.type}' + f' - {rpGet.device_type.id} - {rpGet.id}') except KeyError: rearport['device_type'] = deviceType need_rearports.append(rearport) if not need_rearports: return try: rpSuccess = nb.dcim.rear_port_templates.create( need_rearports) for rp in rpSuccess: print(f'Rear Port Created: {rp.name} - {rp.type}' + f' - {rp.device_type.id} - {rp.id}') counter.update({'updated': 1}) except pynetbox.RequestError as e: print(e.error) def create_module_rear_ports(rearports, module_type, nb): all_rearports = {str(item): item for item in nb.dcim.rear_port_templates.filter(moduletype_id=module_type)} need_rearports = [] for rearport in rearports: try: rpGet = all_rearports[rearport["name"]] print(f'Rear Port Template Exists: {rpGet.name} - {rpGet.type}' + f' - {rpGet.module_type.id} - {rpGet.id}') except KeyError: rearport['module_type'] = module_type need_rearports.append(rearport) if not need_rearports: return try: rpSuccess = nb.dcim.rear_port_templates.create( need_rearports) for rp in rpSuccess: print(f'Rear Port Created: {rp.name} - {rp.type}' + f' - {rp.module_type.id} - {rp.id}') counter.update({'module_port_added': 1}) except pynetbox.RequestError as e: print(e.error) def createDeviceBays(devicebays, deviceType, nb): all_devicebays = {str(item): item for item in nb.dcim.device_bay_templates.filter(devicetype_id=deviceType)} need_devicebays = [] for devicebay in devicebays: try: dbGet = all_devicebays[devicebay["name"]] print(f'Device Bay Template Exists: {dbGet.name} - ' + f'{dbGet.device_type.id} - {dbGet.id}') except KeyError: devicebay['device_type'] = deviceType need_devicebays.append(devicebay) if not need_devicebays: return try: dbSuccess = nb.dcim.device_bay_templates.create(need_devicebays) for db in dbSuccess: print(f'Device Bay Created: {db.name} - ' + f'{db.device_type.id} - {db.id}') counter.update({'updated': 1}) except pynetbox.RequestError as e: print(e.error) def create_module_bays(module_bays, device_type, nb): '''Create module bays. Args: module_bays: parsed YAML module_bays section. device_type: the device type instance from netbox. nb: Netbox API instance ''' all_module_bays = { str(item): item for item in nb.dcim.module_bay_templates.filter( devicetype_id=device_type ) } need_module_bays = [] for module_bay in module_bays: try: dbGet = all_module_bays[module_bay["name"]] print(f'Module Bay Template Exists: {dbGet.name} - ' + f'{dbGet.device_type.id} - {dbGet.id}') except KeyError: module_bay['device_type'] = device_type need_module_bays.append(module_bay) if not need_module_bays: return try: module_bay_res = nb.dcim.module_bay_templates.create(need_module_bays) for module_bay in module_bay_res: print(f'Module Bay Created: {module_bay.name} - ' + f'{module_bay.device_type.id} - {module_bay.id}') counter.update({'updated': 1}) except pynetbox.RequestError as e: print(e.error) def createPowerOutlets(poweroutlets, deviceType, nb): all_poweroutlets = {str(item): item for item in nb.dcim.power_outlet_templates.filter(devicetype_id=deviceType)} need_poweroutlets = [] for poweroutlet in poweroutlets: try: poGet = all_poweroutlets[poweroutlet["name"]] print(f'Power Outlet Template Exists: {poGet.name} - ' + f'{poGet.type} - {poGet.device_type.id} - {poGet.id}') except KeyError: poweroutlet["device_type"] = deviceType need_poweroutlets.append(poweroutlet) if not need_poweroutlets: return all_power_ports = {str(item): item for item in nb.dcim.power_port_templates.filter(devicetype_id=deviceType)} for outlet in need_poweroutlets: try: ppGet = all_power_ports[outlet["power_port"]] outlet['power_port'] = ppGet.id except KeyError: pass try: poSuccess = nb.dcim.power_outlet_templates.create( need_poweroutlets) for po in poSuccess: print(f'Power Outlet Created: {po.name} - ' + f'{po.type} - {po.device_type.id} - ' + f'{po.id}') counter.update({'updated': 1}) except pynetbox.RequestError as e: print(e.error) def create_module_power_outlets(poweroutlets, module_type, nb): '''Create missing module power outlets. Args: poweroutlets: YAML power outlet data. module_type: Netbox module_type instance. nb: pynetbox API instance. Returns: None Raises: None ''' all_poweroutlets = {str(item): item for item in nb.dcim.power_outlet_templates.filter(moduletype_id=module_type)} need_poweroutlets = [] for poweroutlet in poweroutlets: try: poGet = all_poweroutlets[poweroutlet["name"]] print(f'Power Outlet Template Exists: {poGet.name} - {poGet.type}' + f' - {poGet.module_type.id} - {poGet.id}') except KeyError: poweroutlet["module_type"] = module_type need_poweroutlets.append(poweroutlet) if not need_poweroutlets: return all_power_ports = {str(item): item for item in nb.dcim.\ power_port_templates.filter(moduletype_id=module_type)} for outlet in need_poweroutlets: try: ppGet = all_power_ports[outlet["power_port"]] outlet['power_port'] = ppGet.id except KeyError: pass try: poSuccess = nb.dcim.power_outlet_templates.create( need_poweroutlets) for po in poSuccess: print(f'Power Outlet Created: {po.name} - ' + f'{po.type} - {po.module_type.id} - ' + f'{po.id}') counter.update({'module_port_added': 1}) except pynetbox.RequestError as e: print(e.error) def createDeviceTypes(deviceTypes, nb): all_device_types = {str(item): item for item in nb.dcim.device_types.all()} for deviceType in deviceTypes: try: dt = all_device_types[deviceType["model"]] print(f'Device Type Exists: {dt.manufacturer.name} - ' + f'{dt.model} - {dt.id}') except KeyError: try: dt = nb.dcim.device_types.create(deviceType) counter.update({'added': 1}) print(f'Device Type Created: {dt.manufacturer.name} - ' + f'{dt.model} - {dt.id}') except pynetbox.RequestError as e: print(e.error) if "interfaces" in deviceType: createInterfaces(deviceType["interfaces"], dt.id, nb) if "power-ports" in deviceType: createPowerPorts(deviceType["power-ports"], dt.id, nb) if "power-port" in deviceType: createPowerPorts(deviceType["power-port"], dt.id, nb) if "console-ports" in deviceType: createConsolePorts(deviceType["console-ports"], dt.id, nb) if "power-outlets" in deviceType: createPowerOutlets(deviceType["power-outlets"], dt.id, nb) if "console-server-ports" in deviceType: createConsoleServerPorts( deviceType["console-server-ports"], dt.id, nb) if "rear-ports" in deviceType: createRearPorts(deviceType["rear-ports"], dt.id, nb) if "front-ports" in deviceType: createFrontPorts(deviceType["front-ports"], dt.id, nb) if "device-bays" in deviceType: createDeviceBays(deviceType["device-bays"], dt.id, nb) if settings.NETBOX_FEATURES['modules'] and 'module-bays' in deviceType: create_module_bays(deviceType['module-bays'], dt.id, nb) def create_module_types(module_types, nb): '''Create missing module types. Args: module_types: yaml data from repo. nb: pynetbox API instance Returns: None ''' all_module_types = {} for curr_nb_mt in nb.dcim.module_types.all(): if curr_nb_mt.manufacturer.slug not in all_module_types: all_module_types[curr_nb_mt.manufacturer.slug] = {} all_module_types[curr_nb_mt.manufacturer.slug][curr_nb_mt.model] = curr_nb_mt for curr_mt in module_types: try: module_type_res = all_module_types[curr_mt['manufacturer']['slug']][curr_mt["model"]] print(f'Module Type Exists: {module_type_res.manufacturer.name} - ' + f'{module_type_res.model} - {module_type_res.id}') except KeyError: try: module_type_res = nb.dcim.module_types.create(curr_mt) counter.update({'module_added': 1}) print(f'Module Type Created: {module_type_res.manufacturer.name} - ' + f'{module_type_res.model} - {module_type_res.id}') except pynetbox.RequestError as exce: print(f"Error '{exce.error}' creating module type: " + f"{curr_mt}") #module_type_res = all_module_types[curr_mt['manufacturer']['slug']][curr_mt["model"]] if "interfaces" in curr_mt: create_module_interfaces(curr_mt["interfaces"], module_type_res.id, nb) if "power-ports" in curr_mt: create_module_power_ports(curr_mt["power-ports"], module_type_res.id, nb) if "console-ports" in curr_mt: create_module_console_ports(curr_mt["console-ports"], module_type_res.id, nb) if "power-outlets" in curr_mt: # No current entries to test create_module_power_outlets(curr_mt["power-outlets"], module_type_res.id, nb) if "console-server-ports" in curr_mt: # No current entries to test create_module_console_server_ports(curr_mt["console-server-ports"], module_type_res.id, nb) if "rear-ports" in curr_mt: create_module_rear_ports(curr_mt["rear-ports"], module_type_res.id, nb) if "front-ports" in curr_mt: create_module_front_ports(curr_mt["front-ports"], module_type_res.id, nb) def main(): cwd = os.getcwd() startTime = datetime.now() nbUrl = settings.NETBOX_URL nbToken = settings.NETBOX_TOKEN nb = pynetbox.api(nbUrl, token=nbToken) determine_features(nb) if settings.IGNORE_SSL_ERRORS: import requests requests.packages.urllib3.disable_warnings() session = requests.Session() session.verify = False nb.http_session = session VENDORS = settings.VENDORS REPO_URL = settings.REPO_URL SLUGS = settings.SLUGS REPO_BRANCH = settings.REPO_BRANCH parser = argparse.ArgumentParser(description='Import Netbox Device Types') parser.add_argument('--vendors', nargs='+', default=VENDORS, help="List of vendors to import eg. apc cisco") parser.add_argument('--url', '--git', default=REPO_URL, help="Git URL with valid Device Type YAML files") parser.add_argument('--slugs', nargs='+', default=SLUGS, help="List of device-type slugs to import eg. ap4431 ws-c3850-24t-l") parser.add_argument('--branch', default=REPO_BRANCH, help="Git branch to use from repo") args = parser.parse_args() try: if os.path.isdir('./repo'): print(f"Package devicetype-library is already installed, " + f"updating {os.path.join(cwd, 'repo')}") update_package('./repo', branch=args.branch) else: repo = Repo.clone_from(args.url, os.path.join(cwd, 'repo'), branch=args.branch) print(f"Package Installed {repo.remotes.origin.url}") except exc.GitCommandError as error: print("Couldn't clone {} ({})".format(args.url, error)) if not args.vendors: print("No Vendors Specified, Gathering All Device-Types") files, vendors = getFiles() else: print("Vendor Specified, Gathering All Matching Device-Types") files, vendors = getFiles(args.vendors) print(str(len(vendors)) + " Vendors Found") deviceTypes = readYAMl(files, slugs=args.slugs) print(str(len(deviceTypes)) + " Device-Types Found") createManufacturers(vendors, nb) createDeviceTypes(deviceTypes, nb) if settings.NETBOX_FEATURES['modules']: if not args.vendors: print("No Vendors Specified, Gathering All Module-Types") files, vendors = get_files_modules() else: print("Vendor Specified, Gathering All Matching Module-Types") files, vendors = get_files_modules(args.vendors) print(str(len(vendors)) + " Module Vendors Found") module_types = read_yaml_modules(files, slugs=args.slugs) print(str(len(module_types)) + " Module-Types Found") createManufacturers(vendors, nb) create_module_types(module_types, nb) print('---') print('Script took {} to run'.format(datetime.now() - startTime)) print('{} devices created'.format(counter['added'])) print('{} interfaces/ports updated'.format(counter['updated'])) print('{} manufacturers created'.format(counter['manufacturer'])) if settings.NETBOX_FEATURES['modules']: print(f"{counter['module_added']} modules created") print(f"{counter['module_port_added']} module interface / ports created") if __name__ == "__main__": main()