# helper functions for system related tasks # K7MHI Kelly Keeton 2024 import meshtastic.serial_interface #pip install meshtastic import meshtastic.tcp_interface import meshtastic.ble_interface from datetime import datetime from modules.settings import * # Global Variables trap_list = ("ping", "pinging", "ack", "testing", "test", "pong", "motd", "cmd", "lheard", "sitrep") help_message = "CMD?: ping, motd, sitrep" # Solar Conditions Configuration if solar_conditions_enabled: from modules.solarconditions import * # from the spudgunman/meshing-around repo trap_list = trap_list + trap_list_solarconditions # items hfcond, solar, sun, moon help_message = help_message + ", sun, hfcond, solar, moon, tide" # Location Configuration if location_enabled: from modules.locationdata import * # from the spudgunman/meshing-around repo trap_list = trap_list + trap_list_location # items tide, whereami, wxc, wx help_message = help_message + ", whereami, wx, wxc, wxa" # BBS Configuration if bbs_enabled: from modules.bbstools import * # from the spudgunman/meshing-around repo trap_list = trap_list + trap_list_bbs # items bbslist, bbspost, bbsread, bbsdelete, bbshelp help_message = help_message + ", bbslist, bbshelp" # Dad Jokes Configuration if dad_jokes_enabled: from dadjokes import Dadjoke # pip install dadjokes trap_list = trap_list + ("joke",) help_message = help_message + ", joke" # Store and Forward Configuration if store_forward_enabled: trap_list = trap_list + ("messages",) help_message = help_message + ", messages" # Interface1 Configuration if interface1_type == 'serial': interface1 = meshtastic.serial_interface.SerialInterface(port1) elif interface1_type == 'tcp': interface1 = meshtastic.tcp_interface.TCPInterface(hostname1) elif interface1_type == 'ble': interface1 = meshtastic.ble_interface.BLEInterface(mac1) else: print(f"System: Interface Type: {interface1_type} not supported. Validate your config against config.template Exiting") exit() # Interface2 Configuration if interface2_enabled: if interface2_type == 'serial': interface2 = meshtastic.serial_interface.SerialInterface(port2) elif interface2_type == 'tcp': interface2 = meshtastic.tcp_interface.TCPInterface(hostname2) elif interface2_type == 'ble': interface2 = meshtastic.ble_interface.BLEInterface(mac2) else: print(f"System: Interface Type: {interface2_type} not supported. Validate your config against config.template Exiting") exit() #Get the node number of the device, check if the device is connected try: myinfo = interface1.getMyNodeInfo() myNodeNum = myinfo['num'] except Exception as e: print(f"System: Critical Error script abort. {e}") exit() if interface2_enabled: try: myinfo2 = interface2.getMyNodeInfo() myNodeNum2 = myinfo2['num'] except Exception as e: print(f"System: Critical Error script abort. {e}") exit() def log_timestamp(): if zuluTime: return datetime.now().strftime("%Y-%m-%d %H:%M:%S") else: return datetime.now().strftime("%Y-%m-%d %I:%M:%S%p") def decimal_to_hex(decimal_number): return f"!{decimal_number:08x}" def get_name_from_number(number, type='long', RXnodeId=1): name = "" if RXnodeId == 1: for node in interface1.nodes.values(): if number == node['num']: if type == 'long': name = node['user']['longName'] return name elif type == 'short': name = node['user']['shortName'] return name else: pass else: name = str(decimal_to_hex(number)) # If long name not found, use the ID as string return name if RXnodeId == 2: for node in interface2.nodes.values(): if number == node['num']: if type == 'long': name = node['user']['longName'] return name elif type == 'short': name = node['user']['shortName'] return name else: pass else: name = str(decimal_to_hex(number)) return name return ERROR_FETCHING_DATA def get_node_list(nodeInt=1): if interface1.nodes: node_list = [] short_node_list = [] for node in interface1.nodes.values(): # ignore own if node['num'] != myNodeNum2 or node['num'] != myNodeNum: node_name = get_name_from_number(node['num'], 'long', nodeInt) snr = node.get('snr', 0) # issue where lastHeard is not always present last_heard = node.get('lastHeard', 0) # make a list of nodes with last heard time and SNR item = (node_name, last_heard, snr) node_list.append(item) node_list.sort(key=lambda x: x[1], reverse=True) #print (f"Node List: {node_list[:5]}\n") # make a nice list for the user for x in node_list[:5]: short_node_list.append(f"{x[0]} SNR:{x[2]}") node1_list = "\n".join(short_node_list) node1 = (f"Port1:\n{node1_list}") if interface2_enabled: node_list = [] short_node_list = [] if interface2.nodes: for node in interface2.nodes.values(): # ignore own if node['num'] != myNodeNum2 or node['num'] != myNodeNum: node_name = get_name_from_number(node['num'], 'long', nodeInt) snr = node.get('snr', 0) # issue where lastHeard is not always present last_heard = node.get('lastHeard', 0) # make a list of nodes with last heard time and SNR item = (node_name, last_heard, snr) node_list.append(item) node_list.sort(key=lambda x: x[1], reverse=True) #print (f"Node List: {node_list[:5]}\n") # make a nice list for the user for x in node_list[:5]: short_node_list.append(f"{x[0]} SNR:{x[2]}") node2_list = "\n".join(short_node_list) node2 = (f"\n Port2:\n{node2_list}") else: node2 = "" return node1 + node2 def get_node_location(number, nodeInt=1): # Get the location of a node by its number from nodeDB on device latitude = 0 longitude = 0 position = [0,0] if nodeInt == 1: if interface1.nodes: for node in interface1.nodes.values(): if number == node['num']: if 'position' in node: latitude = node['position']['latitude'] longitude = node['position']['longitude'] print (f"System: location data for {number} is {latitude},{longitude}") position = [latitude,longitude] return position else: print (f"{log_timestamp()} System: No location data for {number}") return position else: print (f"{log_timestamp()} System: No nodes found") return position if nodeInt == 2: if interface2.nodes: for node in interface2.nodes.values(): if number == node['num']: if 'position' in node: latitude = node['position']['latitude'] longitude = node['position']['longitude'] print (f"System: location data for {number} is {latitude},{longitude}") position = [latitude,longitude] return position else: print (f"{log_timestamp()} System: No location data for {number}") return position else: print (f"{log_timestamp()} System: No nodes found") return position def send_message(message, ch, nodeid=0, nodeInt=1): # if message over 160 characters, split it into multiple messages if len(message) > 160: print (f"{log_timestamp()} System: Splitting Message, Message Length: {len(message)}") # split the message into 160 character chunks #message = message.replace('\n', ' NEWLINE ') # replace newlines with NEWLINE to keep them in split chunks split_message = message.split() line = '' split_len = 160 message_list = [] for word in split_message: if len(line+word)