def _main(): global SERVER # Load database db.load() # Exterior network configuration global_netconfig() # Find connected dongle enable_ncp() # Start web interface webserver.start() # Start subtasks mdns = MDNS() TASKS.append(SERIAL()) TASKS.append(NETWORK()) TASKS.append(DHCP()) TASKS.append(NAT()) TASKS.append(DNS()) TASKS.append(MDNS()) TASKS.append(DIAGS()) TASKS.append(COAPSERVER()) # Launch mDNS already asyncio.ensure_future(mdns.run()) if db.get('autostart') == 1: db.set('action_kibra', 'start') asyncio.ensure_future(_master()) asyncio.get_event_loop().run_forever()
def clear_topology(): db.load() _, ncps = _get_devices(db.get('ncp_serial')) threads = [] for device in ncps: threads.append(Thread(target=_stop_topology, args=[device]))
def form_topology(): db.load() brouter, ncps = _get_devices(db.get('ncp_serial')) threads = [] oobcom = _get_oobcom(brouter) if oobcom: oobcom['timeout'] = TIMEOUT for device in ncps: mac = device.ksh_cmd('show eui64', True)[0] device.set_mac(mac) # oobcom['actstamp'] = _get_atimestamp() threads.append( Thread(target=_join_network, args=[device, 'fed', oobcom])) for thread in threads: thread.start() for thread in threads: thread.join()
def main(): global SERVER logging.info('Launching KiBRA v%s' % kibra.__version__) # Load database db.load() # Exterior network configuration global_netconfig() # Find connected NCP enable_ncp() # Start web interface webserver.start() # Start subtasks mdns = MDNS() TASKS.append(NETWORK()) TASKS.append(SERIAL()) TASKS.append(SYSLOG()) TASKS.append(DHCP()) TASKS.append(NAT()) TASKS.append(DNS()) TASKS.append(mdns) TASKS.append(DIAGS()) if db.get('bbr_enable'): TASKS.append(COAPSERVER()) # Launch mDNS already asyncio.ensure_future(mdns.run()) if db.get('autostart') == 1: db.set('action_kibra', 'start') asyncio.ensure_future(_master()) asyncio.get_event_loop().run_forever()