import RNS import LXMF import threading import plyer import os.path import time import sqlite3 import RNS.vendor.umsgpack as msgpack import RNS.Interfaces.Interface as Interface from .res import sideband_fb_data if RNS.vendor.platformutils.get_platform() == "android": from jnius import autoclass, cast class PropagationNodeDetector(): EMITTED_DELTA_GRACE = 300 EMITTED_DELTA_IGNORE = 10 aspect_filter = "lxmf.propagation" def received_announce(self, destination_hash, announced_identity, app_data): try: unpacked = msgpack.unpackb(app_data) node_active = unpacked[0] emitted = unpacked[1] hops = RNS.Transport.hops_to(destination_hash) age = time.time() - emitted if age < 0: RNS.log("Warning, propagation node announce emitted in the future, possible timing inconsistency or tampering attempt.") if age < -1*PropagationNodeDetector.EMITTED_DELTA_GRACE: raise ValueError("Announce timestamp too far in the future, discarding it") if age > -1*PropagationNodeDetector.EMITTED_DELTA_IGNORE: # age = 0 pass RNS.log("Detected active propagation node "+RNS.prettyhexrep(destination_hash)+" emission "+str(age)+" seconds ago, "+str(hops)+" hops away") self.owner.log_announce(destination_hash, RNS.prettyhexrep(destination_hash).encode("utf-8"), dest_type=PropagationNodeDetector.aspect_filter) if self.owner.config["lxmf_propagation_node"] == None: if self.owner.active_propagation_node == None: self.owner.set_active_propagation_node(destination_hash) else: prev_hops = RNS.Transport.hops_to(self.owner.active_propagation_node) if hops <= prev_hops: self.owner.set_active_propagation_node(destination_hash) else: pass else: pass except Exception as e: RNS.log("Error while processing received propagation node announce: "+str(e)) def __init__(self, owner): self.owner = owner self.owner_app = owner.owner_app class SidebandCore(): CONV_P2P = 0x01 CONV_GROUP = 0x02 CONV_BROADCAST = 0x03 MAX_ANNOUNCES = 24 SERVICE_JOB_INTERVAL = 1 PERIODIC_JOBS_INTERVAL = 60 PERIODIC_SYNC_RETRY = 360 aspect_filter = "lxmf.delivery" def received_announce(self, destination_hash, announced_identity, app_data): # Add the announce to the directory announce # stream logger self.log_announce(destination_hash, app_data, dest_type=SidebandCore.aspect_filter) def __init__(self, owner_app, is_service=False, is_client=False, android_app_dir=None, verbose=False): self.is_service = is_service self.is_client = is_client if not self.is_service and not self.is_client: self.is_standalone = True else: self.is_standalone = False self.log_verbose = verbose self.owner_app = owner_app self.reticulum = None self.app_dir = plyer.storagepath.get_home_dir()+"/.config/sideband" if self.app_dir.startswith("file://"): self.app_dir = self.app_dir.replace("file://", "") self.rns_configdir = None if RNS.vendor.platformutils.is_android(): self.app_dir = android_app_dir+"/io.unsigned.sideband/files/" self.rns_configdir = self.app_dir+"/app_storage/reticulum" self.asset_dir = self.app_dir+"/app/assets" elif RNS.vendor.platformutils.is_darwin(): core_path = os.path.abspath(__file__) self.asset_dir = core_path.replace("/sideband/core.py", "/assets") elif RNS.vendor.platformutils.get_platform() == "linux": core_path = os.path.abspath(__file__) self.asset_dir = core_path.replace("/sideband/core.py", "/assets") else: self.asset_dir = plyer.storagepath.get_application_dir()+"/sbapp/assets" self.icon = self.asset_dir+"/icon.png" self.icon_48 = self.asset_dir+"/icon_48.png" self.icon_32 = self.asset_dir+"/icon_32.png" self.icon_macos = self.asset_dir+"/icon_macos.png" self.notification_icon = self.asset_dir+"/notification_icon.png" if not os.path.isdir(self.app_dir+"/app_storage"): os.makedirs(self.app_dir+"/app_storage") self.config_path = self.app_dir+"/app_storage/sideband_config" self.identity_path = self.app_dir+"/app_storage/primary_identity" self.db_path = self.app_dir+"/app_storage/sideband.db" self.lxmf_storage = self.app_dir+"/app_storage/" self.tmp_dir = self.app_dir+"/app_storage/tmp" self.exports_dir = self.app_dir+"/exports" self.first_run = True try: if not os.path.isfile(self.config_path): self.__init_config() else: self.__load_config() self.first_run = False if not os.path.isdir(self.tmp_dir): os.makedirs(self.tmp_dir) else: self.clear_tmp_dir() if os.path.isdir(self.exports_dir): self.clear_exports_dir() except Exception as e: RNS.log("Error while configuring Sideband: "+str(e), RNS.LOG_ERROR) # Initialise Reticulum configuration if RNS.vendor.platformutils.get_platform() == "android": try: self.rns_configdir = self.app_dir+"/app_storage/reticulum" if not os.path.isdir(self.rns_configdir): os.makedirs(self.rns_configdir) RNS.log("Configuring Reticulum instance...") if self.config["connect_transport"]: RNS.log("Enabling Reticulum Transport") generated_config = rns_config.replace("TRANSPORT_IS_ENABLED", "Yes") else: RNS.log("Not enabling Reticulum Transport") generated_config = rns_config.replace("TRANSPORT_IS_ENABLED", "No") config_file = open(self.rns_configdir+"/config", "wb") config_file.write(generated_config.encode("utf-8")) config_file.close() except Exception as e: RNS.log("Error while configuring Reticulum instance: "+str(e), RNS.LOG_ERROR) else: pass self.active_propagation_node = None self.propagation_detector = PropagationNodeDetector(self) RNS.Transport.register_announce_handler(self) RNS.Transport.register_announce_handler(self.propagation_detector) def clear_tmp_dir(self): if os.path.isdir(self.tmp_dir): for file in os.listdir(self.tmp_dir): fpath = self.tmp_dir+"/"+file os.unlink(fpath) def clear_exports_dir(self): if os.path.isdir(self.exports_dir): for file in os.listdir(self.exports_dir): fpath = self.exports_dir+"/"+file RNS.log("Clearing "+str(fpath)) os.unlink(fpath) def __init_config(self): RNS.log("Creating new Sideband configuration...") if os.path.isfile(self.identity_path): self.identity = RNS.Identity.from_file(self.identity_path) else: self.identity = RNS.Identity() self.identity.to_file(self.identity_path) self.config = {} # Settings self.config["display_name"] = "Anonymous Peer" self.config["notifications_on"] = True self.config["dark_ui"] = False self.config["start_announce"] = False self.config["propagation_by_default"] = False self.config["home_node_as_broadcast_repeater"] = False self.config["send_telemetry_to_home_node"] = False self.config["lxmf_propagation_node"] = None self.config["lxmf_sync_limit"] = None self.config["lxmf_sync_max"] = 3 self.config["lxmf_periodic_sync"] = False self.config["lxmf_sync_interval"] = 43200 self.config["last_lxmf_propagation_node"] = None self.config["nn_home_node"] = None self.config["print_command"] = "lp" # Connectivity self.config["connect_transport"] = False self.config["connect_local"] = True self.config["connect_local_groupid"] = "" self.config["connect_local_ifac_netname"] = "" self.config["connect_local_ifac_passphrase"] = "" self.config["connect_tcp"] = False self.config["connect_tcp_host"] = "sideband.connect.reticulum.network" self.config["connect_tcp_port"] = "7822" self.config["connect_tcp_ifac_netname"] = "" self.config["connect_tcp_ifac_passphrase"] = "" self.config["connect_i2p"] = False self.config["connect_i2p_b32"] = "pmlm3l5rpympihoy2o5ago43kluei2jjjzsalcuiuylbve3mwi2a.b32.i2p" self.config["connect_i2p_ifac_netname"] = "" self.config["connect_i2p_ifac_passphrase"] = "" self.config["connect_rnode"] = False self.config["connect_rnode_ifac_netname"] = "" self.config["connect_rnode_ifac_passphrase"] = "" self.config["connect_serial"] = False self.config["connect_serial_ifac_netname"] = "" self.config["connect_serial_ifac_passphrase"] = "" self.config["connect_modem"] = False self.config["connect_modem_ifac_netname"] = "" self.config["connect_modem_ifac_passphrase"] = "" self.config["connect_ifmode_local"] = "full" self.config["connect_ifmode_tcp"] = "full" self.config["connect_ifmode_i2p"] = "full" self.config["connect_ifmode_rnode"] = "full" self.config["connect_ifmode_modem"] = "full" self.config["connect_ifmode_serial"] = "full" self.config["connect_ifmode_bluetooth"] = "full" # Hardware self.config["hw_rnode_frequency"] = None self.config["hw_rnode_modulation"] = "LoRa" self.config["hw_rnode_bandwidth"] = 62500 self.config["hw_rnode_spreading_factor"] = 8 self.config["hw_rnode_coding_rate"] = 6 self.config["hw_rnode_tx_power"] = 0 self.config["hw_rnode_beaconinterval"] = None self.config["hw_rnode_beacondata"] = None self.config["hw_rnode_bt_device"] = None self.config["hw_modem_baudrate"] = 57600 self.config["hw_modem_databits"] = 8 self.config["hw_modem_stopbits"] = 1 self.config["hw_modem_parity"] = "none" self.config["hw_modem_preamble"] = 150 self.config["hw_modem_tail"] = 20 self.config["hw_modem_persistence"] = 220 self.config["hw_modem_slottime"] = 20 self.config["hw_modem_beaconinterval"] = None self.config["hw_modem_beacondata"] = None self.config["hw_serial_baudrate"] = 57600 self.config["hw_serial_databits"] = 8 self.config["hw_serial_stopbits"] = 1 self.config["hw_serial_parity"] = "none" if not os.path.isfile(self.db_path): self.__db_init() else: self._db_initstate() self._db_initpersistent() self.__save_config() def should_persist_data(self): if self.reticulum != None: self.reticulum._should_persist_data() self.save_configuration() def __load_config(self): RNS.log("Loading Sideband identity...", RNS.LOG_DEBUG) self.identity = RNS.Identity.from_file(self.identity_path) RNS.log("Loading Sideband configuration... "+str(self.config_path), RNS.LOG_DEBUG) config_file = open(self.config_path, "rb") self.config = msgpack.unpackb(config_file.read()) config_file.close() # Migration actions from earlier config formats if not "dark_ui" in self.config: self.config["dark_ui"] = True if not "lxmf_periodic_sync" in self.config: self.config["lxmf_periodic_sync"] = False if not "lxmf_sync_interval" in self.config: self.config["lxmf_sync_interval"] = 43200 if not "notifications_on" in self.config: self.config["notifications_on"] = True if not "print_command" in self.config: self.config["print_command"] = "lp" if not "connect_transport" in self.config: self.config["connect_transport"] = False if not "connect_rnode" in self.config: self.config["connect_rnode"] = False if not "connect_rnode_ifac_netname" in self.config: self.config["connect_rnode_ifac_netname"] = "" if not "connect_rnode_ifac_passphrase" in self.config: self.config["connect_rnode_ifac_passphrase"] = "" if not "connect_serial" in self.config: self.config["connect_serial"] = False if not "connect_serial_ifac_netname" in self.config: self.config["connect_serial_ifac_netname"] = "" if not "connect_serial_ifac_passphrase" in self.config: self.config["connect_serial_ifac_passphrase"] = "" if not "connect_modem" in self.config: self.config["connect_modem"] = False if not "connect_modem_ifac_netname" in self.config: self.config["connect_modem_ifac_netname"] = "" if not "connect_modem_ifac_passphrase" in self.config: self.config["connect_modem_ifac_passphrase"] = "" if not "connect_ifmode_local" in self.config: self.config["connect_ifmode_local"] = "full" if not "connect_ifmode_tcp" in self.config: self.config["connect_ifmode_tcp"] = "full" if not "connect_ifmode_i2p" in self.config: self.config["connect_ifmode_i2p"] = "full" if not "connect_ifmode_rnode" in self.config: self.config["connect_ifmode_rnode"] = "full" if not "connect_ifmode_modem" in self.config: self.config["connect_ifmode_modem"] = "full" if not "connect_ifmode_serial" in self.config: self.config["connect_ifmode_serial"] = "full" if not "connect_ifmode_bluetooth" in self.config: self.config["connect_ifmode_bluetooth"] = "full" if not "hw_rnode_frequency" in self.config: self.config["hw_rnode_frequency"] = None if not "hw_rnode_modulation" in self.config: self.config["hw_rnode_modulation"] = "LoRa" if not "hw_rnode_bandwidth" in self.config: self.config["hw_rnode_bandwidth"] = 62500 if not "hw_rnode_spreading_factor" in self.config: self.config["hw_rnode_spreading_factor"] = 8 if not "hw_rnode_coding_rate" in self.config: self.config["hw_rnode_coding_rate"] = 6 if not "hw_rnode_tx_power" in self.config: self.config["hw_rnode_tx_power"] = 0 if not "hw_rnode_beaconinterval" in self.config: self.config["hw_rnode_beaconinterval"] = None if not "hw_rnode_beacondata" in self.config: self.config["hw_rnode_beacondata"] = None if not "hw_rnode_bluetooth" in self.config: self.config["hw_rnode_bluetooth"] = False if not "hw_rnode_bt_device" in self.config: self.config["hw_rnode_bt_device"] = None if not "hw_modem_baudrate" in self.config: self.config["hw_modem_baudrate"] = 115200 if not "hw_modem_databits" in self.config: self.config["hw_modem_databits"] = 8 if not "hw_modem_stopbits" in self.config: self.config["hw_modem_stopbits"] = 1 if not "hw_modem_parity" in self.config: self.config["hw_modem_parity"] = "none" if not "hw_modem_preamble" in self.config: self.config["hw_modem_preamble"] = 150 if not "hw_modem_tail" in self.config: self.config["hw_modem_tail"] = 20 if not "hw_modem_persistence" in self.config: self.config["hw_modem_persistence"] = 220 if not "hw_modem_slottime" in self.config: self.config["hw_modem_slottime"] = 20 if not "hw_modem_beaconinterval" in self.config: self.config["hw_modem_beaconinterval"] = None if not "hw_modem_beacondata" in self.config: self.config["hw_modem_beacondata"] = None if not "hw_serial_baudrate" in self.config: self.config["hw_serial_baudrate"] = 57600 if not "hw_serial_databits" in self.config: self.config["hw_serial_databits"] = 8 if not "hw_serial_stopbits" in self.config: self.config["hw_serial_stopbits"] = 1 if not "hw_serial_parity" in self.config: self.config["hw_serial_parity"] = "none" # Make sure we have a database if not os.path.isfile(self.db_path): self.__db_init() else: self._db_initstate() self._db_initpersistent() def __reload_config(self): RNS.log("Reloading Sideband configuration... "+str(self.config_path), RNS.LOG_DEBUG) config_file = open(self.config_path, "rb") self.config = msgpack.unpackb(config_file.read()) config_file.close() self.update_active_lxmf_propagation_node() def __save_config(self): RNS.log("Saving Sideband configuration...", RNS.LOG_DEBUG) config_file = open(self.config_path, "wb") config_file.write(msgpack.packb(self.config)) config_file.close() if self.is_client: self.setstate("wants.settings_reload", True) def reload_configuration(self): self.__reload_config() def save_configuration(self): self.__save_config() def set_active_propagation_node(self, dest): if dest == None: RNS.log("No active propagation node configured") else: try: self.active_propagation_node = dest self.config["last_lxmf_propagation_node"] = dest self.message_router.set_outbound_propagation_node(dest) if not self.is_service: self.owner_app.root.ids.settings_propagation_node_address.text = RNS.hexrep(dest, delimit=False) RNS.log("Active propagation node set to: "+RNS.prettyhexrep(dest)) self.__save_config() except Exception as e: RNS.log("Error while setting LXMF propagation node: "+str(e), RNS.LOG_ERROR) def notify(self, title, content, group=None, context_id=None): if self.config["notifications_on"]: if RNS.vendor.platformutils.get_platform() == "android": if self.getpersistent("permissions.notifications"): notifications_permitted = True else: notifications_permitted = False else: notifications_permitted = True if notifications_permitted: if RNS.vendor.platformutils.get_platform() == "android": if self.is_service: self.owner_service.android_notification(title, content, group=group, context_id=context_id) else: plyer.notification.notify(title, content, notification_icon=self.notification_icon, context_override=None) else: plyer.notification.notify(title, content, app_icon=self.icon_32) def log_announce(self, dest, app_data, dest_type): try: RNS.log("Received "+str(dest_type)+" announce for "+RNS.prettyhexrep(dest)+" with data: "+app_data.decode("utf-8")) self._db_save_announce(dest, app_data, dest_type) self.setstate("app.flags.new_announces", True) except Exception as e: RNS.log("Exception while decoding LXMF destination announce data:"+str(e)) def list_conversations(self): result = self._db_conversations() if result != None: return result else: return [] def list_announces(self): result = self._db_announces() if result != None: return result else: return [] def has_conversation(self, context_dest): existing_conv = self._db_conversation(context_dest) if existing_conv != None: return True else: return False def is_trusted(self, context_dest): try: existing_conv = self._db_conversation(context_dest) if existing_conv != None: if existing_conv["trust"] == 1: return True else: return False else: return False except Exception as e: RNS.log("Error while checking trust for "+RNS.prettyhexrep(context_dest)+": "+str(e), RNS.LOG_ERROR) return False def raw_display_name(self, context_dest): try: existing_conv = self._db_conversation(context_dest) if existing_conv != None: if existing_conv["name"] != None and existing_conv["name"] != "": return existing_conv["name"] else: return "" else: return "" except Exception as e: RNS.log("Error while getting peer name: "+str(e), RNS.LOG_ERROR) return "" def peer_display_name(self, context_dest): try: existing_conv = self._db_conversation(context_dest) if existing_conv != None: if existing_conv["name"] != None and existing_conv["name"] != "": if existing_conv["trust"] == 1: return existing_conv["name"] else: return existing_conv["name"]+" "+RNS.prettyhexrep(context_dest) else: app_data = RNS.Identity.recall_app_data(context_dest) if app_data != None: if existing_conv["trust"] == 1: return app_data.decode("utf-8") else: return app_data.decode("utf-8")+" "+RNS.prettyhexrep(context_dest) else: return RNS.prettyhexrep(context_dest) else: app_data = RNS.Identity.recall_app_data(context_dest) if app_data != None: return app_data.decode("utf-8")+" "+RNS.prettyhexrep(context_dest) else: return RNS.prettyhexrep(context_dest) except Exception as e: RNS.log("Could not decode a valid peer name from data: "+str(e), RNS.LOG_DEBUG) return RNS.prettyhexrep(context_dest) def clear_conversation(self, context_dest): self._db_clear_conversation(context_dest) def delete_announce(self, context_dest): self._db_delete_announce(context_dest) def delete_conversation(self, context_dest): self._db_clear_conversation(context_dest) self._db_delete_conversation(context_dest) def delete_message(self, message_hash): self._db_delete_message(message_hash) def read_conversation(self, context_dest): self._db_conversation_set_unread(context_dest, False) def unread_conversation(self, context_dest): self._db_conversation_set_unread(context_dest, True) def trusted_conversation(self, context_dest): self._db_conversation_set_trusted(context_dest, True) def untrusted_conversation(self, context_dest): self._db_conversation_set_trusted(context_dest, False) def named_conversation(self, name, context_dest): self._db_conversation_set_name(context_dest, name) def list_messages(self, context_dest, after = None): result = self._db_messages(context_dest, after) if result != None: return result else: return [] def service_available(self): service_heartbeat = self.getstate("service.heartbeat") if not service_heartbeat: return False else: try: if time.time() - service_heartbeat > 2.5: return False else: return True except: return False def gui_foreground(self): return self._db_getstate("app.foreground") def gui_display(self): return self._db_getstate("app.displaying") def gui_conversation(self): return self._db_getstate("app.active_conversation") def setstate(self, prop, val): self._db_setstate(prop, val) def getstate(self, prop): return self._db_getstate(prop) def setpersistent(self, prop, val): self._db_setpersistent(prop, val) def getpersistent(self, prop): return self._db_getpersistent(prop) def __event_conversations_changed(self): pass def __event_conversation_changed(self, context_dest): pass def __db_init(self): db = sqlite3.connect(self.db_path) dbc = db.cursor() dbc.execute("DROP TABLE IF EXISTS lxm") dbc.execute("CREATE TABLE lxm (lxm_hash BLOB PRIMARY KEY, dest BLOB, source BLOB, title BLOB, tx_ts INTEGER, rx_ts INTEGER, state INTEGER, method INTEGER, t_encrypted INTEGER, t_encryption INTEGER, data BLOB)") dbc.execute("DROP TABLE IF EXISTS conv") dbc.execute("CREATE TABLE conv (dest_context BLOB PRIMARY KEY, last_tx INTEGER, last_rx INTEGER, unread INTEGER, type INTEGER, trust INTEGER, name BLOB, data BLOB)") dbc.execute("DROP TABLE IF EXISTS announce") dbc.execute("CREATE TABLE announce (id PRIMARY KEY, received INTEGER, source BLOB, data BLOB, dest_type BLOB)") dbc.execute("DROP TABLE IF EXISTS state") dbc.execute("CREATE TABLE state (property BLOB PRIMARY KEY, value BLOB)") dbc.execute("DROP TABLE IF EXISTS persistent") dbc.execute("CREATE TABLE persistent (property BLOB PRIMARY KEY, value BLOB)") db.commit() db.close() def _db_initstate(self): db = sqlite3.connect(self.db_path) dbc = db.cursor() dbc.execute("DROP TABLE IF EXISTS state") dbc.execute("CREATE TABLE state (property BLOB PRIMARY KEY, value BLOB)") self._db_setstate("database_ready", True) def _db_getstate(self, prop): db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "select * from state where property=:uprop" dbc.execute(query, {"uprop": prop.encode("utf-8")}) result = dbc.fetchall() db.close() if len(result) < 1: return None else: try: entry = result[0] val = msgpack.unpackb(entry[1]) return val except Exception as e: RNS.log("Could not unpack state value from database for property \""+str(prop)+"\". The contained exception was: "+str(e), RNS.LOG_ERROR) return None def _db_setstate(self, prop, val): db = sqlite3.connect(self.db_path) dbc = db.cursor() uprop = prop.encode("utf-8") bval = msgpack.packb(val) if self._db_getstate(prop) == None: query = "INSERT INTO state (property, value) values (?, ?)" data = (uprop, bval) dbc.execute(query, data) else: query = "UPDATE state set value=:bval where property=:uprop;" dbc.execute(query, {"bval": bval, "uprop": uprop}) db.commit() db.close() def _db_initpersistent(self): db = sqlite3.connect(self.db_path) dbc = db.cursor() dbc.execute("CREATE TABLE IF NOT EXISTS persistent (property BLOB PRIMARY KEY, value BLOB)") def _db_getpersistent(self, prop): db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "select * from persistent where property=:uprop" dbc.execute(query, {"uprop": prop.encode("utf-8")}) result = dbc.fetchall() db.close() if len(result) < 1: return None else: try: entry = result[0] val = msgpack.unpackb(entry[1]) if val == None: db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "delete from persistent where (property=:uprop);" dbc.execute(query, {"uprop": prop.encode("utf-8")}) db.commit() return val except Exception as e: RNS.log("Could not unpack persistent value from database for property \""+str(prop)+"\". The contained exception was: "+str(e), RNS.LOG_ERROR) return None def _db_setpersistent(self, prop, val): db = sqlite3.connect(self.db_path) dbc = db.cursor() uprop = prop.encode("utf-8") bval = msgpack.packb(val) if self._db_getpersistent(prop) == None: query = "INSERT INTO persistent (property, value) values (?, ?)" data = (uprop, bval) dbc.execute(query, data) else: query = "UPDATE persistent set value=:bval where property=:uprop;" dbc.execute(query, {"bval": bval, "uprop": uprop}) db.commit() db.close() def _db_conversation_set_unread(self, context_dest, unread): db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "UPDATE conv set unread = ? where dest_context = ?" data = (unread, context_dest) dbc.execute(query, data) result = dbc.fetchall() db.commit() db.close() def _db_conversation_set_trusted(self, context_dest, trusted): db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "UPDATE conv set trust = ? where dest_context = ?" data = (trusted, context_dest) dbc.execute(query, data) result = dbc.fetchall() db.commit() db.close() def _db_conversation_set_name(self, context_dest, name): db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "UPDATE conv set name=:name_data where dest_context=:ctx;" dbc.execute(query, {"ctx": context_dest, "name_data": name.encode("utf-8")}) result = dbc.fetchall() db.commit() db.close() def _db_conversations(self): db = sqlite3.connect(self.db_path) dbc = db.cursor() dbc.execute("select * from conv") result = dbc.fetchall() db.close() if len(result) < 1: return None else: convs = [] for entry in result: conv = { "dest": entry[0], "unread": entry[3], } convs.append(conv) return convs def _db_announces(self): db = sqlite3.connect(self.db_path) dbc = db.cursor() dbc.execute("select * from announce order by received desc") result = dbc.fetchall() db.close() if len(result) < 1: return None else: announces = [] added_dests = [] for entry in result: try: if not entry[2] in added_dests: announce = { "dest": entry[2], "data": entry[3].decode("utf-8"), "time": entry[1], "type": entry[4] } added_dests.append(entry[2]) announces.append(announce) except Exception as e: RNS.log("Exception while fetching announce from DB: "+str(e), RNS.LOG_ERROR) announces.reverse() return announces def _db_conversation(self, context_dest): db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "select * from conv where dest_context=:ctx" dbc.execute(query, {"ctx": context_dest}) result = dbc.fetchall() db.close() if len(result) < 1: return None else: c = result[0] conv = {} conv["dest"] = c[0] conv["last_tx"] = c[1] conv["last_rx"] = c[2] conv["unread"] = c[3] conv["type"] = c[4] conv["trust"] = c[5] conv["name"] = c[6].decode("utf-8") conv["data"] = msgpack.unpackb(c[7]) return conv def _db_clear_conversation(self, context_dest): RNS.log("Clearing conversation with "+RNS.prettyhexrep(context_dest), RNS.LOG_DEBUG) db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "delete from lxm where (dest=:ctx_dst or source=:ctx_dst);" dbc.execute(query, {"ctx_dst": context_dest}) db.commit() db.close() def _db_delete_conversation(self, context_dest): RNS.log("Deleting conversation with "+RNS.prettyhexrep(context_dest), RNS.LOG_DEBUG) db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "delete from conv where (dest_context=:ctx_dst);" dbc.execute(query, {"ctx_dst": context_dest}) db.commit() db.close() def _db_delete_announce(self, context_dest): RNS.log("Deleting announce with "+RNS.prettyhexrep(context_dest), RNS.LOG_DEBUG) db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "delete from announce where (source=:ctx_dst);" dbc.execute(query, {"ctx_dst": context_dest}) db.commit() db.close() def _db_create_conversation(self, context_dest, name = None, trust = False): RNS.log("Creating conversation for "+RNS.prettyhexrep(context_dest), RNS.LOG_DEBUG) db = sqlite3.connect(self.db_path) dbc = db.cursor() def_name = "".encode("utf-8") query = "INSERT INTO conv (dest_context, last_tx, last_rx, unread, type, trust, name, data) values (?, ?, ?, ?, ?, ?, ?, ?)" data = (context_dest, 0, 0, 0, SidebandCore.CONV_P2P, 0, def_name, msgpack.packb(None)) dbc.execute(query, data) db.commit() db.close() if trust: self._db_conversation_set_trusted(context_dest, True) if name != None and name != "": self._db_conversation_set_name(context_dest, name) self.__event_conversations_changed() def _db_delete_message(self, msg_hash): RNS.log("Deleting message "+RNS.prettyhexrep(msg_hash)) db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "delete from lxm where (lxm_hash=:mhash);" dbc.execute(query, {"mhash": msg_hash}) db.commit() db.close() def _db_clean_messages(self): RNS.log("Purging stale messages... "+str(self.db_path)) db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "delete from lxm where (state=:outbound_state or state=:sending_state);" dbc.execute(query, {"outbound_state": LXMF.LXMessage.OUTBOUND, "sending_state": LXMF.LXMessage.SENDING}) db.commit() db.close() def _db_message_set_state(self, lxm_hash, state): db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "UPDATE lxm set state = ? where lxm_hash = ?" data = (state, lxm_hash) dbc.execute(query, data) db.commit() result = dbc.fetchall() db.close() def _db_message_set_method(self, lxm_hash, method): db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "UPDATE lxm set method = ? where lxm_hash = ?" data = (method, lxm_hash) dbc.execute(query, data) db.commit() result = dbc.fetchall() db.close() def message(self, msg_hash): return self._db_message(msg_hash) def _db_message(self, msg_hash): db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "select * from lxm where lxm_hash=:mhash" dbc.execute(query, {"mhash": msg_hash}) result = dbc.fetchall() db.close() if len(result) < 1: return None else: entry = result[0] lxm_method = entry[7] if lxm_method == LXMF.LXMessage.PAPER: lxm_data = msgpack.unpackb(entry[10]) packed_lxm = lxm_data[0] paper_packed_lxm = lxm_data[1] else: packed_lxm = entry[10] lxm = LXMF.LXMessage.unpack_from_bytes(packed_lxm, original_method = lxm_method) if lxm.desired_method == LXMF.LXMessage.PAPER: lxm.paper_packed = paper_packed_lxm message = { "hash": lxm.hash, "dest": lxm.destination_hash, "source": lxm.source_hash, "title": lxm.title, "content": lxm.content, "received": entry[5], "sent": lxm.timestamp, "state": entry[6], "method": entry[7], "lxm": lxm } return message def _db_messages(self, context_dest, after = None): db = sqlite3.connect(self.db_path) dbc = db.cursor() if after == None: query = "select * from lxm where dest=:context_dest or source=:context_dest" dbc.execute(query, {"context_dest": context_dest}) else: query = "select * from lxm where (dest=:context_dest or source=:context_dest) and rx_ts>:after_ts" dbc.execute(query, {"context_dest": context_dest, "after_ts": after}) result = dbc.fetchall() db.close() if len(result) < 1: return None else: messages = [] for entry in result: lxm_method = entry[7] if lxm_method == LXMF.LXMessage.PAPER: lxm_data = msgpack.unpackb(entry[10]) packed_lxm = lxm_data[0] paper_packed_lxm = lxm_data[1] else: packed_lxm = entry[10] lxm = LXMF.LXMessage.unpack_from_bytes(packed_lxm, original_method = lxm_method) if lxm.desired_method == LXMF.LXMessage.PAPER: lxm.paper_packed = paper_packed_lxm message = { "hash": lxm.hash, "dest": lxm.destination_hash, "source": lxm.source_hash, "title": lxm.title, "content": lxm.content, "received": entry[5], "sent": lxm.timestamp, "state": entry[6], "method": entry[7], "lxm": lxm } messages.append(message) return messages def _db_save_lxm(self, lxm, context_dest): state = lxm.state db = sqlite3.connect(self.db_path) dbc = db.cursor() if not lxm.packed: lxm.pack() if lxm.method == LXMF.LXMessage.PAPER: packed_lxm = msgpack.packb([lxm.packed, lxm.paper_packed]) else: packed_lxm = lxm.packed query = "INSERT INTO lxm (lxm_hash, dest, source, title, tx_ts, rx_ts, state, method, t_encrypted, t_encryption, data) values (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)" data = ( lxm.hash, lxm.destination_hash, lxm.source_hash, lxm.title, lxm.timestamp, time.time(), state, lxm.method, lxm.transport_encrypted, lxm.transport_encryption, packed_lxm, ) dbc.execute(query, data) db.commit() db.close() self.__event_conversation_changed(context_dest) def _db_save_announce(self, destination_hash, app_data, dest_type="lxmf.delivery"): db = sqlite3.connect(self.db_path) dbc = db.cursor() query = "delete from announce where id is NULL or id not in (select id from announce order by received desc limit "+str(self.MAX_ANNOUNCES)+")" dbc.execute(query) query = "delete from announce where (source=:source);" dbc.execute(query, {"source": destination_hash}) now = time.time() hash_material = str(time).encode("utf-8")+destination_hash+app_data+dest_type.encode("utf-8") announce_hash = RNS.Identity.full_hash(hash_material) query = "INSERT INTO announce (id, received, source, data, dest_type) values (?, ?, ?, ?, ?)" data = ( announce_hash, now, destination_hash, app_data, dest_type, ) dbc.execute(query, data) db.commit() db.commit() db.close() def lxmf_announce(self): if self.is_standalone or self.is_service: self.lxmf_destination.announce() self.setstate("wants.announce", False) else: self.setstate("wants.announce", True) def is_known(self, dest_hash): try: source_identity = RNS.Identity.recall(dest_hash) if source_identity: return True else: return False except Exception as e: return False def request_key(self, dest_hash): try: RNS.Transport.request_path(dest_hash) return True except Exception as e: RNS.log("Error while querying for key: "+str(e), RNS.LOG_ERROR) return False def _service_jobs(self): if self.is_service: last_usb_discovery = time.time() while True: time.sleep(SidebandCore.SERVICE_JOB_INTERVAL) now = time.time() if self.getstate("wants.announce"): self.lxmf_announce() if self.getstate("wants.bt_on"): self.setstate("wants.bt_on", False) self.setstate("executing.bt_on", True) if self.interface_rnode != None: self.interface_rnode.enable_bluetooth() else: if hasattr(self.owner_app, "usb_devices") and self.owner_app.usb_devices != None: if len(self.owner_app.usb_devices) > 0: target_port = self.owner_app.usb_devices[0]["port"] RNS.Interfaces.Android.RNodeInterface.RNodeInterface.bluetooth_control(port=target_port, enable_bluetooth = True) self.setstate("executing.bt_on", False) if self.getstate("wants.bt_off"): self.setstate("wants.bt_off", False) self.setstate("executing.bt_off", True) if self.interface_rnode != None: self.interface_rnode.disable_bluetooth() else: if hasattr(self.owner_app, "usb_devices") and self.owner_app.usb_devices != None: if len(self.owner_app.usb_devices) > 0: target_port = self.owner_app.usb_devices[0]["port"] RNS.Interfaces.Android.RNodeInterface.RNodeInterface.bluetooth_control(port=target_port, disable_bluetooth = True) self.setstate("executing.bt_off", False) if self.getstate("wants.bt_pair"): self.setstate("wants.bt_pair", False) self.setstate("executing.bt_pair", True) if self.interface_rnode != None: self.interface_rnode.bluetooth_pair() else: if hasattr(self.owner_app, "usb_devices") and self.owner_app.usb_devices != None: if len(self.owner_app.usb_devices) > 0: target_port = self.owner_app.usb_devices[0]["port"] RNS.Interfaces.Android.RNodeInterface.RNodeInterface.bluetooth_control(port=target_port, pairing_mode = True) self.setstate("executing.bt_pair", False) if (now - last_usb_discovery > 5): if self.interface_rnode != None and not self.interface_rnode.online: self.owner_app.discover_usb_devices() last_usb_discovery = time.time() if hasattr(self.owner_app, "usb_devices") and self.owner_app.usb_devices != None: if len(self.owner_app.usb_devices) > 0: target_device = self.owner_app.usb_devices[0] if self.interface_rnode.port != target_device["port"]: RNS.log("Updating RNode device to "+str(target_device)) self.interface_rnode.port = target_device["port"] if self.interface_serial != None and not self.interface_serial.online: self.owner_app.discover_usb_devices() last_usb_discovery = time.time() if hasattr(self.owner_app, "usb_devices") and self.owner_app.usb_devices != None: if len(self.owner_app.usb_devices) > 0: target_device = self.owner_app.usb_devices[0] if self.interface_serial.port != target_device["port"]: RNS.log("Updating serial device to "+str(target_device)) self.interface_serial.port = target_device["port"] if self.interface_modem != None and not self.interface_modem.online: self.owner_app.discover_usb_devices() last_usb_discovery = time.time() if hasattr(self.owner_app, "usb_devices") and self.owner_app.usb_devices != None: if len(self.owner_app.usb_devices) > 0: target_device = self.owner_app.usb_devices[0] if self.interface_modem.port != target_device["port"]: RNS.log("Updating modem device to "+str(target_device)) self.interface_modem.port = target_device["port"] def _periodic_jobs(self): if self.is_service or self.is_standalone: while True: time.sleep(SidebandCore.PERIODIC_JOBS_INTERVAL) if self.config["lxmf_periodic_sync"] == True: if self.getpersistent("lxmf.lastsync") == None: self.setpersistent("lxmf.lastsync", time.time()) else: now = time.time() syncinterval = self.config["lxmf_sync_interval"] lastsync = self.getpersistent("lxmf.lastsync") nextsync = lastsync+syncinterval RNS.log("Last sync was "+RNS.prettytime(now-lastsync)+" ago", RNS.LOG_DEBUG) RNS.log("Next sync is "+("in "+RNS.prettytime(nextsync-now) if nextsync-now > 0 else "now"), RNS.LOG_DEBUG) if now > nextsync: if self.request_lxmf_sync(): RNS.log("Scheduled LXMF sync succeeded", RNS.LOG_DEBUG) self.setpersistent("lxmf.lastsync", time.time()) self.setpersistent("lxmf.syncretrying", False) else: if not self.getpersistent("lxmf.syncretrying"): RNS.log("Scheduled LXMF sync failed, retrying in "+RNS.prettytime(SidebandCore.PERIODIC_SYNC_RETRY), RNS.LOG_DEBUG) self.setpersistent("lxmf.lastsync", lastsync+SidebandCore.PERIODIC_SYNC_RETRY) self.setpersistent("lxmf.syncretrying", True) else: RNS.log("Retry of scheduled LXMF sync failed too, waiting until next scheduled sync to try again", RNS.LOG_DEBUG) self.setpersistent("lxmf.lastsync", time.time()) self.setpersistent("lxmf.syncretrying", False) def __start_jobs_deferred(self): if self.config["start_announce"]: self.lxmf_announce() if self.is_service: self.service_thread = threading.Thread(target=self._service_jobs, daemon=True) self.service_thread.start() if self.is_standalone or self.is_service: self.periodic_thread = threading.Thread(target=self._periodic_jobs, daemon=True) self.periodic_thread.start() def __start_jobs_immediate(self): if self.log_verbose: selected_level = 7 else: selected_level = 2 self.setstate("init.loadingstate", "Substantiating Reticulum") self.reticulum = RNS.Reticulum(configdir=self.rns_configdir, loglevel=selected_level) if RNS.vendor.platformutils.get_platform() == "android": if not self.reticulum.is_connected_to_shared_instance: RNS.log("Running as master or standalone instance, adding interfaces") self.interface_local = None self.interface_tcp = None self.interface_i2p = None self.interface_rnode = None self.interface_modem = None self.interface_serial = None if self.config["connect_local"]: self.setstate("init.loadingstate", "Discovering Topography") try: RNS.log("Adding Auto Interface...", RNS.LOG_DEBUG) if self.config["connect_local_groupid"] == "": group_id = None else: group_id = self.config["connect_local_groupid"] if self.config["connect_local_ifac_netname"] == "": ifac_netname = None else: ifac_netname = self.config["connect_local_ifac_netname"] if self.config["connect_local_ifac_passphrase"] == "": ifac_netkey = None else: ifac_netkey = self.config["connect_local_ifac_passphrase"] autointerface = RNS.Interfaces.AutoInterface.AutoInterface( RNS.Transport, name = "AutoInterface", group_id = group_id ) autointerface.OUT = True if RNS.Reticulum.transport_enabled(): if_mode = Interface.Interface.MODE_FULL if self.config["connect_ifmode_local"] == "gateway": if_mode = Interface.Interface.MODE_GATEWAY elif self.config["connect_ifmode_local"] == "access point": if_mode = Interface.Interface.MODE_ACCESS_POINT elif self.config["connect_ifmode_local"] == "roaming": if_mode = Interface.Interface.MODE_ROAMING elif self.config["connect_ifmode_local"] == "boundary": if_mode = Interface.Interface.MODE_BOUNDARY else: if_mode = None self.reticulum._add_interface(autointerface, mode = if_mode, ifac_netname = ifac_netname, ifac_netkey = ifac_netkey) self.interface_local = autointerface except Exception as e: RNS.log("Error while adding AutoInterface. The contained exception was: "+str(e)) self.interface_local = None if self.config["connect_tcp"]: self.setstate("init.loadingstate", "Connecting TCP Tunnel") try: RNS.log("Adding TCP Interface...", RNS.LOG_DEBUG) if self.config["connect_tcp_host"] != "": tcp_host = self.config["connect_tcp_host"] tcp_port = int(self.config["connect_tcp_port"]) if tcp_port > 0 and tcp_port <= 65536: if self.config["connect_tcp_ifac_netname"] == "": ifac_netname = None else: ifac_netname = self.config["connect_tcp_ifac_netname"] if self.config["connect_tcp_ifac_passphrase"] == "": ifac_netkey = None else: ifac_netkey = self.config["connect_tcp_ifac_passphrase"] tcpinterface = RNS.Interfaces.TCPInterface.TCPClientInterface( RNS.Transport, "TCPClientInterface", tcp_host, tcp_port, kiss_framing = False, i2p_tunneled = False ) tcpinterface.OUT = True if RNS.Reticulum.transport_enabled(): if_mode = Interface.Interface.MODE_FULL if self.config["connect_ifmode_tcp"] == "gateway": if_mode = Interface.Interface.MODE_GATEWAY elif self.config["connect_ifmode_tcp"] == "access point": if_mode = Interface.Interface.MODE_ACCESS_POINT elif self.config["connect_ifmode_tcp"] == "roaming": if_mode = Interface.Interface.MODE_ROAMING elif self.config["connect_ifmode_tcp"] == "boundary": if_mode = Interface.Interface.MODE_BOUNDARY else: if_mode = None self.reticulum._add_interface(tcpinterface, mode=if_mode, ifac_netname=ifac_netname, ifac_netkey=ifac_netkey) self.interface_tcp = tcpinterface except Exception as e: RNS.log("Error while adding TCP Interface. The contained exception was: "+str(e)) self.interface_tcp = None if self.config["connect_i2p"]: self.setstate("init.loadingstate", "Opening I2P Endpoints") try: RNS.log("Adding I2P Interface...", RNS.LOG_DEBUG) if self.config["connect_i2p_b32"].endswith(".b32.i2p"): if self.config["connect_i2p_ifac_netname"] == "": ifac_netname = None else: ifac_netname = self.config["connect_i2p_ifac_netname"] if self.config["connect_i2p_ifac_passphrase"] == "": ifac_netkey = None else: ifac_netkey = self.config["connect_i2p_ifac_passphrase"] i2pinterface = RNS.Interfaces.I2PInterface.I2PInterface( RNS.Transport, "I2PInterface", RNS.Reticulum.storagepath, [self.config["connect_i2p_b32"]], connectable = False, ) i2pinterface.OUT = True if RNS.Reticulum.transport_enabled(): if_mode = Interface.Interface.MODE_FULL if self.config["connect_ifmode_i2p"] == "gateway": if_mode = Interface.Interface.MODE_GATEWAY elif self.config["connect_ifmode_i2p"] == "access point": if_mode = Interface.Interface.MODE_ACCESS_POINT elif self.config["connect_ifmode_i2p"] == "roaming": if_mode = Interface.Interface.MODE_ROAMING elif self.config["connect_ifmode_i2p"] == "boundary": if_mode = Interface.Interface.MODE_BOUNDARY else: if_mode = None self.reticulum._add_interface(i2pinterface, mode = if_mode, ifac_netname=ifac_netname, ifac_netkey=ifac_netkey) for si in RNS.Transport.interfaces: if type(si) == RNS.Interfaces.I2PInterface.I2PInterfacePeer: self.interface_i2p = si except Exception as e: RNS.log("Error while adding I2P Interface. The contained exception was: "+str(e)) self.interface_i2p = None if self.config["connect_rnode"]: self.setstate("init.loadingstate", "Starting RNode") try: RNS.log("Adding RNode Interface...", RNS.LOG_DEBUG) target_device = None if len(self.owner_app.usb_devices) > 0: # TODO: Add more intelligent selection here target_device = self.owner_app.usb_devices[0] if target_device or self.config["hw_rnode_bluetooth"]: if target_device != None: target_port = target_device["port"] else: target_port = None if self.getpersistent("permissions.bluetooth"): if self.config["hw_rnode_bluetooth"]: # TODO: Remove RNS.log("Allowing RNode bluetooth") rnode_allow_bluetooth = True if self.config["hw_rnode_bt_device"] != None: bt_device_name = self.config["hw_rnode_bt_device"] else: bt_device_name = None else: # TODO: Remove RNS.log("Disallowing RNode bluetooth since config is disabled") rnode_allow_bluetooth = False else: # TODO: Remove RNS.log("Disallowing RNode bluetooth due to missing permission") rnode_allow_bluetooth = True if self.config["connect_rnode_ifac_netname"] == "": ifac_netname = None else: ifac_netname = self.config["connect_rnode_ifac_netname"] if self.config["connect_rnode_ifac_passphrase"] == "": ifac_netkey = None else: ifac_netkey = self.config["connect_rnode_ifac_passphrase"] rnodeinterface = RNS.Interfaces.Android.RNodeInterface.RNodeInterface( RNS.Transport, "RNodeInterface", target_port, frequency = self.config["hw_rnode_frequency"], bandwidth = self.config["hw_rnode_bandwidth"], txpower = self.config["hw_rnode_tx_power"], sf = self.config["hw_rnode_spreading_factor"], cr = self.config["hw_rnode_coding_rate"], flow_control = None, id_interval = self.config["hw_rnode_beaconinterval"], id_callsign = self.config["hw_rnode_beacondata"], allow_bluetooth = rnode_allow_bluetooth, target_device_name = bt_device_name, ) rnodeinterface.OUT = True if RNS.Reticulum.transport_enabled(): if_mode = Interface.Interface.MODE_FULL if self.config["connect_ifmode_rnode"] == "gateway": if_mode = Interface.Interface.MODE_GATEWAY elif self.config["connect_ifmode_rnode"] == "access point": if_mode = Interface.Interface.MODE_ACCESS_POINT elif self.config["connect_ifmode_rnode"] == "roaming": if_mode = Interface.Interface.MODE_ROAMING elif self.config["connect_ifmode_rnode"] == "boundary": if_mode = Interface.Interface.MODE_BOUNDARY else: if_mode = None self.reticulum._add_interface(rnodeinterface, mode = if_mode, ifac_netname = ifac_netname, ifac_netkey = ifac_netkey) self.interface_rnode = rnodeinterface if rnodeinterface != None: if len(rnodeinterface.hw_errors) > 0: self.setpersistent("startup.errors.rnode", rnodeinterface.hw_errors[0]) if self.interface_rnode.online: self.interface_rnode.display_image(sideband_fb_data) self.interface_rnode.enable_external_framebuffer() except Exception as e: RNS.log("Error while adding RNode Interface. The contained exception was: "+str(e)) self.interface_rnode = None elif self.config["connect_serial"]: self.setstate("init.loadingstate", "Starting Serial Interface") try: RNS.log("Adding Serial Interface...", RNS.LOG_DEBUG) target_device = None if len(self.owner_app.usb_devices) > 0: # TODO: Add more intelligent selection here target_device = self.owner_app.usb_devices[0] if target_device: if self.config["connect_serial_ifac_netname"] == "": ifac_netname = None else: ifac_netname = self.config["connect_serial_ifac_netname"] if self.config["connect_serial_ifac_passphrase"] == "": ifac_netkey = None else: ifac_netkey = self.config["connect_serial_ifac_passphrase"] serialinterface = RNS.Interfaces.Android.SerialInterface.SerialInterface( RNS.Transport, "SerialInterface", target_device["port"], self.config["hw_serial_baudrate"], self.config["hw_serial_databits"], self.config["hw_serial_parity"], self.config["hw_serial_stopbits"], ) serialinterface.OUT = True if RNS.Reticulum.transport_enabled(): if_mode = Interface.Interface.MODE_FULL if self.config["connect_ifmode_serial"] == "gateway": if_mode = Interface.Interface.MODE_GATEWAY elif self.config["connect_ifmode_serial"] == "access point": if_mode = Interface.Interface.MODE_ACCESS_POINT elif self.config["connect_ifmode_serial"] == "roaming": if_mode = Interface.Interface.MODE_ROAMING elif self.config["connect_ifmode_serial"] == "boundary": if_mode = Interface.Interface.MODE_BOUNDARY else: if_mode = None self.reticulum._add_interface(serialinterface, mode = if_mode, ifac_netname = ifac_netname, ifac_netkey = ifac_netkey) self.interface_serial = serialinterface except Exception as e: RNS.log("Error while adding Serial Interface. The contained exception was: "+str(e)) self.interface_serial = None elif self.config["connect_modem"]: self.setstate("init.loadingstate", "Starting Radio Modem") try: RNS.log("Adding Modem Interface...", RNS.LOG_DEBUG) target_device = None if len(self.owner_app.usb_devices) > 0: # TODO: Add more intelligent selection here target_device = self.owner_app.usb_devices[0] if target_device: if self.config["connect_modem_ifac_netname"] == "": ifac_netname = None else: ifac_netname = self.config["connect_modem_ifac_netname"] if self.config["connect_modem_ifac_passphrase"] == "": ifac_netkey = None else: ifac_netkey = self.config["connect_modem_ifac_passphrase"] modeminterface = RNS.Interfaces.Android.KISSInterface.KISSInterface( RNS.Transport, "ModemInterface", target_device["port"], self.config["hw_modem_baudrate"], self.config["hw_modem_databits"], self.config["hw_modem_parity"], self.config["hw_modem_stopbits"], self.config["hw_modem_preamble"], self.config["hw_modem_tail"], self.config["hw_modem_persistence"], self.config["hw_modem_slottime"], False, # flow control self.config["hw_modem_beaconinterval"], self.config["hw_modem_beacondata"], ) modeminterface.OUT = True if RNS.Reticulum.transport_enabled(): if_mode = Interface.Interface.MODE_FULL if self.config["connect_ifmode_modem"] == "gateway": if_mode = Interface.Interface.MODE_GATEWAY elif self.config["connect_ifmode_modem"] == "access point": if_mode = Interface.Interface.MODE_ACCESS_POINT elif self.config["connect_ifmode_modem"] == "roaming": if_mode = Interface.Interface.MODE_ROAMING elif self.config["connect_ifmode_modem"] == "boundary": if_mode = Interface.Interface.MODE_BOUNDARY else: if_mode = None self.reticulum._add_interface(modeminterface, mode = if_mode, ifac_netname = ifac_netname, ifac_netkey = ifac_netkey) self.interface_modem = modeminterface except Exception as e: RNS.log("Error while adding Modem Interface. The contained exception was: "+str(e)) self.interface_modem = None RNS.log("Reticulum started, activating LXMF...") self.setstate("init.loadingstate", "Activating LXMF Router") self.message_router = LXMF.LXMRouter(identity = self.identity, storagepath = self.lxmf_storage, autopeer = True) self.message_router.register_delivery_callback(self.lxmf_delivery) self.lxmf_destination = self.message_router.register_delivery_identity(self.identity, display_name=self.config["display_name"]) self.lxmf_destination.set_default_app_data(self.get_display_name_bytes) self.rns_dir = RNS.Reticulum.configdir self.update_active_lxmf_propagation_node() def update_active_lxmf_propagation_node(self): if self.config["lxmf_propagation_node"] != None and self.config["lxmf_propagation_node"] != "": self.set_active_propagation_node(self.config["lxmf_propagation_node"]) else: if self.config["last_lxmf_propagation_node"] != None and self.config["last_lxmf_propagation_node"] != "": self.set_active_propagation_node(self.config["last_lxmf_propagation_node"]) else: self.set_active_propagation_node(None) def message_notification(self, message): if message.state == LXMF.LXMessage.FAILED and hasattr(message, "try_propagation_on_fail") and message.try_propagation_on_fail: RNS.log("Direct delivery of "+str(message)+" failed. Retrying as propagated message.", RNS.LOG_VERBOSE) message.try_propagation_on_fail = None message.delivery_attempts = 0 del message.next_delivery_attempt message.packed = None message.desired_method = LXMF.LXMessage.PROPAGATED self._db_message_set_method(message.hash, LXMF.LXMessage.PROPAGATED) self.message_router.handle_outbound(message) else: self.lxm_ingest(message, originator=True) def paper_message(self, content, destination_hash): try: if content == "": raise ValueError("Message content cannot be empty") dest_identity = RNS.Identity.recall(destination_hash) dest = RNS.Destination(dest_identity, RNS.Destination.OUT, RNS.Destination.SINGLE, "lxmf", "delivery") source = self.lxmf_destination desired_method = LXMF.LXMessage.PAPER lxm = LXMF.LXMessage(dest, source, content, title="", desired_method=desired_method) self.lxm_ingest(lxm, originator=True) return True except Exception as e: RNS.log("Error while creating paper message: "+str(e), RNS.LOG_ERROR) return False def send_message(self, content, destination_hash, propagation): try: if content == "": raise ValueError("Message content cannot be empty") dest_identity = RNS.Identity.recall(destination_hash) dest = RNS.Destination(dest_identity, RNS.Destination.OUT, RNS.Destination.SINGLE, "lxmf", "delivery") source = self.lxmf_destination if propagation: desired_method = LXMF.LXMessage.PROPAGATED else: desired_method = LXMF.LXMessage.DIRECT lxm = LXMF.LXMessage(dest, source, content, title="", desired_method=desired_method) lxm.register_delivery_callback(self.message_notification) lxm.register_failed_callback(self.message_notification) if self.message_router.get_outbound_propagation_node() != None: lxm.try_propagation_on_fail = True self.message_router.handle_outbound(lxm) self.lxm_ingest(lxm, originator=True) return True except Exception as e: RNS.log("Error while sending message: "+str(e), RNS.LOG_ERROR) return False def new_conversation(self, dest_str, name = "", trusted = False): if len(dest_str) != RNS.Reticulum.TRUNCATED_HASHLENGTH//8*2: return False try: addr_b = bytes.fromhex(dest_str) self._db_create_conversation(addr_b, name, trusted) except Exception as e: RNS.log("Error while creating conversation: "+str(e), RNS.LOG_ERROR) return False return True def create_conversation(self, context_dest, name = None, trusted = False): try: self._db_create_conversation(context_dest, name, trusted) except Exception as e: RNS.log("Error while creating conversation: "+str(e), RNS.LOG_ERROR) return False return True def lxm_ingest_uri(self, uri): local_delivery_signal = "local_delivery_occurred" duplicate_signal = "duplicate_lxm" ingest_result = self.message_router.ingest_lxm_uri( uri, signal_local_delivery=local_delivery_signal, signal_duplicate=duplicate_signal ) if ingest_result == False: response = "The URI contained no decodable messages" elif ingest_result == local_delivery_signal: response = "Message was decoded, decrypted successfully, and added to your conversation list." elif ingest_result == duplicate_signal: response = "The decoded message has already been processed by the LXMF Router, and will not be ingested again." else: # TODO: Add message to sneakernet queues response = "The decoded message was not addressed to your LXMF address, and has been discarded." self.setstate("lxm_uri_ingest.result", response) def lxm_ingest(self, message, originator = False): should_notify = False is_trusted = False if originator: context_dest = message.destination_hash else: context_dest = message.source_hash is_trusted = self.is_trusted(context_dest) if self._db_message(message.hash): RNS.log("Message exists, setting state to: "+str(message.state), RNS.LOG_DEBUG) self._db_message_set_state(message.hash, message.state) else: RNS.log("Message does not exist, saving", RNS.LOG_DEBUG) self._db_save_lxm(message, context_dest) if is_trusted: should_notify = True if self._db_conversation(context_dest) == None: self._db_create_conversation(context_dest) self.setstate("app.flags.new_conversations", True) if self.gui_display() == "messages_screen": if self.gui_conversation() != context_dest: self.unread_conversation(context_dest) self.setstate("app.flags.unread_conversations", True) else: if self.gui_foreground(): should_notify = False else: self.unread_conversation(context_dest) self.setstate("app.flags.unread_conversations", True) if RNS.vendor.platformutils.is_android(): if self.gui_display() == "conversations_screen" and self.gui_foreground(): should_notify = False if self.is_client: should_notify = False if should_notify: nlen = 128 text = message.content.decode("utf-8") notification_content = text[:nlen] if len(text) > nlen: text += "..." self.notify(title=self.peer_display_name(context_dest), content=notification_content, group="LXM", context_id=RNS.hexrep(context_dest, delimit=False)) def start(self): self._db_clean_messages() self.__start_jobs_immediate() thread = threading.Thread(target=self.__start_jobs_deferred) thread.setDaemon(True) thread.start() self._db_setstate("core.started", True) RNS.log("Sideband Core "+str(self)+" started") def request_lxmf_sync(self, limit = None): if self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_IDLE or self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_COMPLETE: self.message_router.request_messages_from_propagation_node(self.identity, max_messages = limit) RNS.log("LXMF message sync requested from propagation node "+RNS.prettyhexrep(self.message_router.get_outbound_propagation_node())+" for "+str(self.identity)) return True else: return False def cancel_lxmf_sync(self): if self.message_router.propagation_transfer_state != LXMF.LXMRouter.PR_IDLE: self.message_router.cancel_propagation_node_requests() def get_sync_progress(self): return self.message_router.propagation_transfer_progress def lxmf_delivery(self, message): time_string = time.strftime("%Y-%m-%d %H:%M:%S", time.localtime(message.timestamp)) signature_string = "Signature is invalid, reason undetermined" if message.signature_validated: signature_string = "Validated" else: if message.unverified_reason == LXMF.LXMessage.SIGNATURE_INVALID: signature_string = "Invalid signature" if message.unverified_reason == LXMF.LXMessage.SOURCE_UNKNOWN: signature_string = "Cannot verify, source is unknown" RNS.log("LXMF delivery "+str(time_string)+". "+str(signature_string)+".") try: self.lxm_ingest(message) except Exception as e: RNS.log("Error while ingesting LXMF message "+RNS.prettyhexrep(message.hash)+" to database: "+str(e)) def get_display_name_bytes(self): return self.config["display_name"].encode("utf-8") def get_sync_status(self): if self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_IDLE: return "Idle" elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_PATH_REQUESTED: return "Path requested" elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_LINK_ESTABLISHING: return "Establishing link" elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_LINK_ESTABLISHED: return "Link established" elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_REQUEST_SENT: return "Sync request sent" elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_RECEIVING: return "Receiving messages" elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_RESPONSE_RECEIVED: return "Messages received" elif self.message_router.propagation_transfer_state == LXMF.LXMRouter.PR_COMPLETE: new_msgs = self.message_router.propagation_transfer_last_result if new_msgs == 0: return "Done, no new messages" else: return "Downloaded "+str(new_msgs)+" new messages" else: return "Unknown" def cleanup(self): if RNS.vendor.platformutils.get_platform() == "android": if not self.reticulum.is_connected_to_shared_instance: RNS.Transport.detach_interfaces() rns_config = """ [reticulum] enable_transport = TRANSPORT_IS_ENABLED share_instance = Yes shared_instance_port = 37428 instance_control_port = 37429 panic_on_interface_error = No [logging] loglevel = 3 """