""" MeshCore Bridge - HTTP API wrapper for meshcli subprocess calls This service runs as a separate container with exclusive USB device access. The main mc-webui container communicates with this bridge via HTTP. Architecture: - Maintains a persistent meshcli session (subprocess.Popen) - Multiplexes: JSON adverts -> .jsonl log, CLI commands -> HTTP responses - Thread-safe command queue with event-based synchronization """ import os import subprocess import logging import threading import time import json import queue import uuid import shlex import re from pathlib import Path from flask import Flask, request, jsonify from flask_socketio import SocketIO, emit logging.basicConfig( level=logging.INFO, format='%(asctime)s - %(name)s - %(levelname)s - %(message)s' ) logger = logging.getLogger(__name__) app = Flask(__name__) # Initialize SocketIO with gevent for async support socketio = SocketIO(app, cors_allowed_origins="*", async_mode='gevent') # Configuration MC_CONFIG_DIR = os.getenv('MC_CONFIG_DIR', '/config') MC_DEVICE_NAME = os.getenv('MC_DEVICE_NAME', 'meshtastic') DEFAULT_TIMEOUT = 10 RECV_TIMEOUT = 60 # Serial port detection SERIAL_BY_ID_PATH = Path('/dev/serial/by-id') SERIAL_PORT_SOURCE = "config" # Will be updated by detect_serial_port() def detect_serial_port() -> str: """ Auto-detect serial port from /dev/serial/by-id/. Returns: Path to detected serial device Raises: RuntimeError: If no device found or multiple devices without explicit selection """ global SERIAL_PORT_SOURCE env_port = os.getenv('MC_SERIAL_PORT', 'auto') # If explicit port specified (not "auto"), use it directly if env_port and env_port.lower() != 'auto': logger.info(f"Using configured serial port: {env_port}") SERIAL_PORT_SOURCE = "config" return env_port # Auto-detect from /dev/serial/by-id/ logger.info("Auto-detecting serial port...") if not SERIAL_BY_ID_PATH.exists(): raise RuntimeError( "No serial devices found: /dev/serial/by-id/ does not exist. " "Make sure a MeshCore device is connected via USB." ) devices = list(SERIAL_BY_ID_PATH.iterdir()) if len(devices) == 0: raise RuntimeError( "No serial devices found in /dev/serial/by-id/. " "Make sure a MeshCore device is connected via USB." ) if len(devices) == 1: device_path = str(devices[0]) logger.info(f"Auto-detected serial port: {device_path}") SERIAL_PORT_SOURCE = "detected" return device_path # Multiple devices found - list them and fail device_list = '\n - '.join(str(d.name) for d in devices) raise RuntimeError( f"Multiple serial devices found. Please specify MC_SERIAL_PORT in .env:\n" f" - {device_list}\n\n" f"Example: MC_SERIAL_PORT=/dev/serial/by-id/{devices[0].name}" ) # Detect serial port at startup MC_SERIAL_PORT = detect_serial_port() class MeshCLISession: """ Manages a persistent meshcli subprocess session. Features: - Single long-lived meshcli process with stdin/stdout pipes - Multiplexing: JSON adverts logged to .jsonl, CLI commands return responses - Thread-safe command queue with event-based synchronization - Auto-restart watchdog for crashed meshcli processes """ def __init__(self, serial_port, config_dir, device_name): self.serial_port = serial_port self.config_dir = Path(config_dir) self.device_name = device_name # Auto-detected device name from meshcli prompt self.detected_name = None self.name_detection_done = threading.Event() # Ensure config directory exists self.config_dir.mkdir(parents=True, exist_ok=True) self.advert_log_path = self.config_dir / f"{device_name}.adverts.jsonl" # Process handle self.process = None self.process_lock = threading.Lock() # Command queue: (cmd_id, command_string, event, response_dict) self.command_queue = queue.Queue() # Pending commands: cmd_id -> {"event": Event, "response": [], "done": False, "error": None} self.pending_commands = {} self.pending_lock = threading.Lock() self.current_cmd_id = None # Threads self.stdout_thread = None self.stderr_thread = None self.stdin_thread = None self.watchdog_thread = None # Shutdown flag self.shutdown_flag = threading.Event() # Echo tracking for "Heard X repeats" feature self.pending_echo = None # {timestamp, channel_idx, pkt_payload} self.echo_counts = {} # pkt_payload -> {paths: set(), timestamp: float, channel_idx: int} self.echo_lock = threading.Lock() # Start session self._start_session() def _start_session(self): """Start meshcli process and worker threads""" logger.info(f"Starting meshcli session on {self.serial_port}") try: # Set terminal size env vars for meshcli (fallback for os.get_terminal_size()) env = os.environ.copy() env['COLUMNS'] = '120' env['LINES'] = '40' self.process = subprocess.Popen( ['meshcli', '-s', self.serial_port], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True, bufsize=1, # Line-buffered env=env ) logger.info(f"meshcli process started (PID: {self.process.pid})") # Start worker threads self.stdout_thread = threading.Thread(target=self._read_stdout, daemon=True, name="stdout-reader") self.stdout_thread.start() self.stderr_thread = threading.Thread(target=self._read_stderr, daemon=True, name="stderr-reader") self.stderr_thread.start() self.stdin_thread = threading.Thread(target=self._send_commands, daemon=True, name="stdin-writer") self.stdin_thread.start() self.watchdog_thread = threading.Thread(target=self._watchdog, daemon=True, name="watchdog") self.watchdog_thread.start() # Initialize session settings time.sleep(0.5) # Let meshcli initialize self._init_session_settings() logger.info("meshcli session fully initialized") except Exception as e: logger.error(f"Failed to start meshcli session: {e}") raise def _load_webui_settings(self): """ Load webui settings from .webui_settings.json file. Returns: dict: Settings dictionary or empty dict if file doesn't exist """ settings_path = self.config_dir / ".webui_settings.json" if not settings_path.exists(): logger.info("No webui settings file found, using defaults") return {} try: with open(settings_path, 'r', encoding='utf-8') as f: settings = json.load(f) logger.info(f"Loaded webui settings: {settings}") return settings except Exception as e: logger.error(f"Failed to load webui settings: {e}") return {} def _init_session_settings(self): """Configure meshcli session for advert logging, message subscription, and user-configured settings""" logger.info("Configuring meshcli session settings") # Send configuration commands directly to stdin (bypass queue for init) if self.process and self.process.stdin: try: # Core settings (always enabled) self.process.stdin.write('set json_log_rx on\n') self.process.stdin.write('set print_adverts on\n') self.process.stdin.write('msgs_subscribe\n') # User-configurable settings from .webui_settings.json webui_settings = self._load_webui_settings() manual_add_contacts = webui_settings.get('manual_add_contacts', False) if manual_add_contacts: self.process.stdin.write('set manual_add_contacts on\n') logger.info("Session settings applied: json_log_rx=on, print_adverts=on, manual_add_contacts=on, msgs_subscribe") else: logger.info("Session settings applied: json_log_rx=on, print_adverts=on, manual_add_contacts=off (default), msgs_subscribe") self.process.stdin.flush() except Exception as e: logger.error(f"Failed to apply session settings: {e}") # Wait for device name detection from prompt, then fallback to .infos if not self.name_detection_done.wait(timeout=1.0): logger.info("Device name not detected from prompt, trying .infos command") self._detect_name_from_infos() def _detect_name_from_infos(self): """Fallback: detect device name via .infos command""" if self.detected_name: return try: result = self.execute_command(['.infos'], timeout=5) if result['success'] and result['stdout']: # Try to parse JSON output from .infos stdout = result['stdout'].strip() # Find JSON object in output for line in stdout.split('\n'): line = line.strip() if line.startswith('{'): try: data = json.loads(line) if 'name' in data: self.detected_name = data['name'] logger.info(f"Detected device name from .infos: {self.detected_name}") self.name_detection_done.set() return except json.JSONDecodeError: continue except Exception as e: logger.warning(f"Failed to detect device name from .infos: {e}") def _read_stdout(self): """Thread: Read stdout line-by-line, parse adverts vs CLI responses""" logger.info("stdout reader thread started") try: for line in iter(self.process.stdout.readline, ''): if self.shutdown_flag.is_set(): break line = line.rstrip('\n\r') if not line: continue # Detect device name from meshcli prompt: "DeviceName|*" or "DeviceName|*[E]" # Handle status prefixes like "Fetching channels ....DeviceName|*" if not self.detected_name and '|*' in line: before_prompt = line.split('|*')[0] # If line contains dots (status indicator), extract name after last dot sequence if '.' in before_prompt: # Split by one or more dots and take the last non-empty part parts = re.split(r'\.+', before_prompt) name_part = parts[-1].strip() if parts else '' else: name_part = before_prompt.strip() if name_part: self.detected_name = name_part logger.info(f"Detected device name from prompt: {self.detected_name}") self.name_detection_done.set() # Try to parse as JSON advert if self._is_advert_json(line): self._log_advert(line) continue # Try to parse as GRP_TXT echo (for "Heard X repeats" feature) echo_data = self._parse_grp_txt_echo(line) if echo_data: self._process_echo(echo_data[0], echo_data[1]) continue # Otherwise, append to current CLI response self._append_to_current_response(line) except Exception as e: logger.error(f"stdout reader error: {e}") finally: logger.info("stdout reader thread exiting") def _read_stderr(self): """Thread: Read stderr and log errors""" logger.info("stderr reader thread started") try: for line in iter(self.process.stderr.readline, ''): if self.shutdown_flag.is_set(): break line = line.rstrip('\n\r') if line: logger.warning(f"meshcli stderr: {line}") except Exception as e: logger.error(f"stderr reader error: {e}") finally: logger.info("stderr reader thread exiting") def _send_commands(self): """Thread: Send queued commands to stdin and monitor responses""" logger.info("stdin writer thread started") try: while not self.shutdown_flag.is_set(): try: # Get command from queue (with timeout to check shutdown flag) cmd_id, command, event, response_dict = self.command_queue.get(timeout=1.0) except queue.Empty: continue logger.info(f"Sending command [{cmd_id}]: {command}") # Register pending command with self.pending_lock: self.pending_commands[cmd_id] = response_dict self.current_cmd_id = cmd_id response_dict["last_line_time"] = time.time() try: # Send command self.process.stdin.write(f'{command}\n') self.process.stdin.flush() # Start timeout monitor thread monitor_thread = threading.Thread( target=self._monitor_response_timeout, args=(cmd_id, response_dict, event), daemon=True ) monitor_thread.start() except Exception as e: logger.error(f"Failed to send command [{cmd_id}]: {e}") with self.pending_lock: response_dict["error"] = str(e) response_dict["done"] = True event.set() except Exception as e: logger.error(f"stdin writer error: {e}") finally: logger.info("stdin writer thread exiting") def _monitor_response_timeout(self, cmd_id, response_dict, event, timeout_ms=300): """Monitor if response has finished (no new lines for timeout_ms)""" try: start_time = time.time() # Get command timeout from response_dict (default 10s) cmd_timeout = response_dict.get("timeout", 10) # For slow commands (timeout >= 15s like node_discover), wait minimum time before allowing completion # because meshcli may echo prompt immediately but real results come later is_slow_command = cmd_timeout >= 15 min_elapsed = (cmd_timeout * 0.7) if is_slow_command else 0 logger.info(f"Monitor [{cmd_id}] started, cmd_timeout={cmd_timeout}s, min_elapsed={min_elapsed:.1f}s") while not self.shutdown_flag.is_set(): time.sleep(timeout_ms / 1000.0) with self.pending_lock: # Check if command still pending if cmd_id not in self.pending_commands: return # Already completed # Check if we got new lines recently time_since_last_line = time.time() - response_dict.get("last_line_time", 0) total_elapsed = time.time() - start_time has_output = len(response_dict.get("response", [])) > 0 # Can only complete if: # 1. Minimum elapsed time has passed (for slow commands), AND # 2. We have output AND no new lines for timeout_ms can_complete = total_elapsed >= min_elapsed if can_complete and has_output and time_since_last_line >= (timeout_ms / 1000.0): # No new lines for timeout period - mark as done logger.info(f"Command [{cmd_id}] completed (timeout-based, has_output={has_output})") response_dict["done"] = True event.set() # If this is a WebSocket command, emit response to that client if cmd_id.startswith("ws_"): socket_id = response_dict.get("socket_id") if socket_id: output = '\n'.join(response_dict.get("response", [])) socketio.emit('command_response', { 'success': True, 'output': output, 'cmd_id': cmd_id }, room=socket_id, namespace='/console') if self.current_cmd_id == cmd_id: self.current_cmd_id = None return except Exception as e: logger.error(f"Monitor thread error for [{cmd_id}]: {e}") def _watchdog(self): """Thread: Monitor process health and restart if crashed""" logger.info("watchdog thread started") while not self.shutdown_flag.is_set(): time.sleep(5) if self.process and self.process.poll() is not None: logger.error(f"meshcli process died (exit code: {self.process.returncode})") logger.info("Attempting to restart meshcli session...") # Cancel all pending commands with self.pending_lock: for cmd_id, resp_dict in self.pending_commands.items(): resp_dict["error"] = "meshcli process crashed" resp_dict["done"] = True resp_dict["event"].set() self.pending_commands.clear() # Restart try: self._start_session() except Exception as e: logger.error(f"Failed to restart session: {e}") time.sleep(10) # Wait before retry logger.info("watchdog thread exiting") def _is_advert_json(self, line): """Check if line is a JSON advert""" try: data = json.loads(line) return isinstance(data, dict) and data.get("payload_typename") == "ADVERT" except (json.JSONDecodeError, ValueError): return False def _parse_grp_txt_echo(self, line): """Parse GRP_TXT JSON echo, return (pkt_payload, path) or None.""" try: data = json.loads(line) if isinstance(data, dict) and data.get("payload_typename") == "GRP_TXT": return (data.get('pkt_payload'), data.get('path', '')) except (json.JSONDecodeError, ValueError): pass return None def _process_echo(self, pkt_payload, path): """Process a GRP_TXT echo and track unique paths.""" if not pkt_payload: return with self.echo_lock: current_time = time.time() # If this pkt_payload is already tracked, add path if pkt_payload in self.echo_counts: self.echo_counts[pkt_payload]['paths'].add(path) logger.debug(f"Echo: added path {path} to existing payload, total: {len(self.echo_counts[pkt_payload]['paths'])}") return # If we have a pending message waiting for correlation if self.pending_echo and self.pending_echo.get('pkt_payload') is None: # Check time window (60 seconds) if current_time - self.pending_echo['timestamp'] < 60: # Associate this pkt_payload with the pending message self.pending_echo['pkt_payload'] = pkt_payload self.echo_counts[pkt_payload] = { 'paths': {path}, 'timestamp': self.pending_echo['timestamp'], 'channel_idx': self.pending_echo['channel_idx'] } logger.info(f"Echo: correlated pkt_payload with sent message, first path: {path}") def register_pending_echo(self, channel_idx, timestamp): """Register a sent message for echo tracking.""" with self.echo_lock: self.pending_echo = { 'timestamp': timestamp, 'channel_idx': channel_idx, 'pkt_payload': None } # Cleanup old echo counts (> 1 hour) cutoff = time.time() - 3600 self.echo_counts = {k: v for k, v in self.echo_counts.items() if v['timestamp'] > cutoff} logger.debug(f"Registered pending echo for channel {channel_idx}") def get_echo_count(self, timestamp, channel_idx): """Get echo count for a message by timestamp and channel.""" with self.echo_lock: for pkt_payload, data in self.echo_counts.items(): # Match within 5 second window if (abs(data['timestamp'] - timestamp) < 5 and data['channel_idx'] == channel_idx): return len(data['paths']) return 0 def _log_advert(self, json_line): """Log advert JSON to .jsonl file with timestamp""" try: data = json.loads(json_line) data["ts"] = time.time() with open(self.advert_log_path, 'a', encoding='utf-8') as f: f.write(json.dumps(data, ensure_ascii=False) + '\n') logger.debug(f"Logged advert from {data.get('from_id', 'unknown')}") except Exception as e: logger.error(f"Failed to log advert: {e}") def _append_to_current_response(self, line): """Append line to current CLI command response and update timestamp""" with self.pending_lock: if not self.current_cmd_id: # No active command, probably init output - log and ignore logger.debug(f"Unassociated output: {line}") return cmd_id = self.current_cmd_id # Append to response buffer self.pending_commands[cmd_id]["response"].append(line) # Update timestamp of last received line self.pending_commands[cmd_id]["last_line_time"] = time.time() def execute_command(self, args, timeout=DEFAULT_TIMEOUT): """ Execute a CLI command via the persistent session. Args: args: List of command arguments (e.g., ['recv', '--timeout', '60']) timeout: Max time to wait for response Returns: Dict with success, stdout, stderr, returncode """ cmd_id = str(uuid.uuid4())[:8] # Build command line - use double quotes for args with spaces/special chars # meshcli doesn't parse like shell, so we need simple double-quote wrapping quoted_args = [] for arg in args: # If argument contains spaces or special chars, wrap in double quotes if ' ' in arg or '"' in arg or "'" in arg: # Escape internal double quotes escaped = arg.replace('"', '\\"') quoted_args.append(f'"{escaped}"') else: quoted_args.append(arg) command = ' '.join(quoted_args) event = threading.Event() response_dict = { "event": event, "response": [], "done": False, "error": None, "last_line_time": time.time(), "timeout": timeout # Pass timeout to monitor thread } # Queue command self.command_queue.put((cmd_id, command, event, response_dict)) logger.info(f"Command [{cmd_id}] queued: {command}") # Wait for completion if not event.wait(timeout): logger.error(f"Command [{cmd_id}] timeout after {timeout}s") # Cleanup with self.pending_lock: if cmd_id in self.pending_commands: del self.pending_commands[cmd_id] return { 'success': False, 'stdout': '', 'stderr': f'Command timeout after {timeout} seconds', 'returncode': -1 } # Retrieve response with self.pending_lock: resp = self.pending_commands.pop(cmd_id, None) if not resp: return { 'success': False, 'stdout': '', 'stderr': 'Command response lost', 'returncode': -1 } if resp["error"]: return { 'success': False, 'stdout': '', 'stderr': resp["error"], 'returncode': -1 } return { 'success': True, 'stdout': '\n'.join(resp["response"]), 'stderr': '', 'returncode': 0 } def execute_ws_command(self, command_text, socket_id, timeout=DEFAULT_TIMEOUT): """ Execute a CLI command from WebSocket client. The response will be emitted via socketio.emit in _monitor_response_timeout. Args: command_text: Raw command string from user socket_id: WebSocket session ID for response routing timeout: Max time to wait for response Returns: Dict with success status (response already emitted via WebSocket) """ cmd_id = f"ws_{uuid.uuid4().hex[:8]}" # Parse command into args (respects quotes) try: args = shlex.split(command_text) except ValueError: args = command_text.split() # Build command line - use double quotes for args with spaces/special chars quoted_args = [] for arg in args: if ' ' in arg or '"' in arg or "'" in arg: escaped = arg.replace('"', '\\"') quoted_args.append(f'"{escaped}"') else: quoted_args.append(arg) command = ' '.join(quoted_args) event = threading.Event() response_dict = { "event": event, "response": [], "done": False, "error": None, "last_line_time": time.time(), "socket_id": socket_id, # Track which WebSocket client sent this "timeout": timeout # Pass timeout to monitor thread } # Queue command self.command_queue.put((cmd_id, command, event, response_dict)) logger.info(f"WebSocket command [{cmd_id}] queued: {command}") # Wait for completion if not event.wait(timeout): logger.error(f"WebSocket command [{cmd_id}] timeout after {timeout}s") # Cleanup with self.pending_lock: if cmd_id in self.pending_commands: del self.pending_commands[cmd_id] # Emit error to client socketio.emit('command_response', { 'success': False, 'error': f'Command timeout after {timeout} seconds', 'cmd_id': cmd_id }, room=socket_id, namespace='/console') return {'success': False, 'error': f'Command timeout after {timeout}s'} # Response already emitted in _monitor_response_timeout return {'success': True} def shutdown(self): """Gracefully shutdown session""" logger.info("Shutting down meshcli session") self.shutdown_flag.set() if self.process: try: self.process.terminate() self.process.wait(timeout=5) except: self.process.kill() logger.info("Session shutdown complete") # Global session instance meshcli_session = None @app.route('/health', methods=['GET']) def health(): """Health check endpoint with device name detection info""" session_status = "healthy" if meshcli_session and meshcli_session.process and meshcli_session.process.poll() is None else "unhealthy" # Determine device name and source detected_name = meshcli_session.detected_name if meshcli_session else None device_name = detected_name or MC_DEVICE_NAME name_source = "detected" if detected_name else "config" # Log warning if there's a mismatch between detected and configured names if detected_name and detected_name != MC_DEVICE_NAME: logger.warning(f"Device name mismatch: detected='{detected_name}', configured='{MC_DEVICE_NAME}'") return jsonify({ 'status': session_status, 'serial_port': MC_SERIAL_PORT, 'serial_port_source': SERIAL_PORT_SOURCE, 'advert_log': str(meshcli_session.advert_log_path) if meshcli_session else None, 'device_name': device_name, 'device_name_source': name_source }), 200 @app.route('/cli', methods=['POST']) def execute_cli(): """ Execute meshcli command via persistent session. Request JSON: { "args": ["recv"], "timeout": 60 (optional) } Response JSON: { "success": true, "stdout": "...", "stderr": "...", "returncode": 0 } """ try: data = request.get_json() if not data or 'args' not in data: return jsonify({ 'success': False, 'stdout': '', 'stderr': 'Missing required field: args', 'returncode': -1 }), 400 args = data['args'] timeout = data.get('timeout', DEFAULT_TIMEOUT) # Special handling for recv command (longer timeout) if args and args[0] == 'recv': timeout = data.get('timeout', RECV_TIMEOUT) if not isinstance(args, list): return jsonify({ 'success': False, 'stdout': '', 'stderr': 'args must be a list', 'returncode': -1 }), 400 # Check session health if not meshcli_session or not meshcli_session.process: return jsonify({ 'success': False, 'stdout': '', 'stderr': 'meshcli session not initialized', 'returncode': -1 }), 503 # Execute via persistent session result = meshcli_session.execute_command(args, timeout) return jsonify(result), 200 except Exception as e: logger.error(f"API error: {e}") return jsonify({ 'success': False, 'stdout': '', 'stderr': str(e), 'returncode': -1 }), 500 @app.route('/pending_contacts', methods=['GET']) def get_pending_contacts(): """ Get list of pending contacts awaiting approval. Response JSON: { "success": true, "pending": [ { "name": "KRK - WD 🔌", "public_key": "2d86b4a7...", "type": 2, "adv_lat": 50.02377, "adv_lon": 19.96038, "last_advert": 1715889153, "lastmod": 1716372319, "out_path_len": -1, "out_path": "" } ], "count": 1 } """ try: # Check session health if not meshcli_session or not meshcli_session.process: return jsonify({ 'success': False, 'error': 'meshcli session not initialized', 'pending': [] }), 503 # Execute .pending_contacts command (JSON format) result = meshcli_session.execute_command(['.pending_contacts'], timeout=DEFAULT_TIMEOUT) if not result['success']: return jsonify({ 'success': False, 'error': result.get('stderr', 'Command failed'), 'pending': [], 'raw_stdout': result.get('stdout', '') }), 200 # Parse JSON stdout using brace-matching (handles prettified multi-line JSON) stdout = result.get('stdout', '').strip() pending = [] if stdout: # Use brace-matching to extract complete JSON objects depth = 0 start_idx = None for i, char in enumerate(stdout): if char == '{': if depth == 0: start_idx = i depth += 1 elif char == '}': depth -= 1 if depth == 0 and start_idx is not None: json_str = stdout[start_idx:i+1] try: # Parse the JSON object (nested dict structure) parsed = json.loads(json_str) # Extract contacts from nested structure # Format: {public_key_hash: {public_key, type, adv_name, ...}} if isinstance(parsed, dict): for key_hash, contact_data in parsed.items(): if isinstance(contact_data, dict) and 'public_key' in contact_data: pending.append({ 'name': contact_data.get('adv_name', 'Unknown'), 'public_key': contact_data.get('public_key', ''), 'type': contact_data.get('type', 1), 'adv_lat': contact_data.get('adv_lat', 0.0), 'adv_lon': contact_data.get('adv_lon', 0.0), 'last_advert': contact_data.get('last_advert', 0), 'lastmod': contact_data.get('lastmod', 0), 'out_path_len': contact_data.get('out_path_len', -1), 'out_path': contact_data.get('out_path', '') }) except json.JSONDecodeError as e: logger.warning(f"Failed to parse pending contact JSON: {e}") start_idx = None return jsonify({ 'success': True, 'pending': pending, 'count': len(pending) }), 200 except Exception as e: logger.error(f"API error in /pending_contacts: {e}") return jsonify({ 'success': False, 'error': str(e), 'pending': [] }), 500 @app.route('/add_pending', methods=['POST']) def add_pending_contact(): """ Add a pending contact by name or public key. Request JSON: { "selector": "" } Response JSON: { "success": true, "stdout": "...", "stderr": "", "returncode": 0 } """ try: data = request.get_json() if not data or 'selector' not in data: return jsonify({ 'success': False, 'stdout': '', 'stderr': 'Missing required field: selector', 'returncode': -1 }), 400 selector = data['selector'] # Validate selector is non-empty string if not isinstance(selector, str) or not selector.strip(): return jsonify({ 'success': False, 'stdout': '', 'stderr': 'selector must be a non-empty string', 'returncode': -1 }), 400 # Check session health if not meshcli_session or not meshcli_session.process: return jsonify({ 'success': False, 'stdout': '', 'stderr': 'meshcli session not initialized', 'returncode': -1 }), 503 # Execute add_pending command result = meshcli_session.execute_command(['add_pending', selector.strip()], timeout=DEFAULT_TIMEOUT) return jsonify(result), 200 except Exception as e: logger.error(f"API error in /add_pending: {e}") return jsonify({ 'success': False, 'stdout': '', 'stderr': str(e), 'returncode': -1 }), 500 @app.route('/set_manual_add_contacts', methods=['POST']) def set_manual_add_contacts(): """ Enable or disable manual contact approval mode. This setting is: 1. Saved to .webui_settings.json for persistence across container restarts 2. Applied immediately to the running meshcli session Request JSON: { "enabled": true/false } Response JSON: { "success": true, "message": "manual_add_contacts set to on" } """ try: data = request.get_json() if not data or 'enabled' not in data: return jsonify({ 'success': False, 'error': 'Missing required field: enabled' }), 400 enabled = data['enabled'] if not isinstance(enabled, bool): return jsonify({ 'success': False, 'error': 'enabled must be a boolean' }), 400 # Save to persistent settings file settings_path = meshcli_session.config_dir / ".webui_settings.json" try: # Read existing settings or create new if settings_path.exists(): with open(settings_path, 'r', encoding='utf-8') as f: settings = json.load(f) else: settings = {} # Update manual_add_contacts setting settings['manual_add_contacts'] = enabled # Write back to file with open(settings_path, 'w', encoding='utf-8') as f: json.dump(settings, f, indent=2, ensure_ascii=False) logger.info(f"Saved manual_add_contacts={enabled} to {settings_path}") except Exception as e: logger.error(f"Failed to save settings file: {e}") return jsonify({ 'success': False, 'error': f'Failed to save settings: {str(e)}' }), 500 # Apply setting immediately to running session if not meshcli_session or not meshcli_session.process: return jsonify({ 'success': False, 'error': 'meshcli session not initialized' }), 503 # Execute set manual_add_contacts on|off command command_value = 'on' if enabled else 'off' result = meshcli_session.execute_command(['set', 'manual_add_contacts', command_value], timeout=DEFAULT_TIMEOUT) if not result['success']: return jsonify({ 'success': False, 'error': f"Failed to apply setting: {result.get('stderr', 'Unknown error')}" }), 500 return jsonify({ 'success': True, 'message': f"manual_add_contacts set to {command_value}", 'enabled': enabled }), 200 except Exception as e: logger.error(f"API error in /set_manual_add_contacts: {e}") return jsonify({ 'success': False, 'error': str(e) }), 500 # ============================================================================= # Echo tracking endpoints for "Heard X repeats" feature # ============================================================================= @app.route('/register_echo', methods=['POST']) def register_echo(): """ Register a sent message for echo tracking. Called after successfully sending a channel message to start tracking repeater echoes for that message. Request JSON: { "channel_idx": 0, "timestamp": 1706500000.123 } """ if not meshcli_session: return jsonify({'success': False, 'error': 'Not initialized'}), 503 data = request.get_json() channel_idx = data.get('channel_idx', 0) timestamp = data.get('timestamp', time.time()) meshcli_session.register_pending_echo(channel_idx, timestamp) return jsonify({'success': True}), 200 @app.route('/echo_counts', methods=['GET']) def get_echo_counts(): """ Get all echo counts for recent messages. Returns echo counts grouped by timestamp and channel, allowing the caller to match with their sent messages. Response JSON: { "success": true, "echo_counts": [ {"timestamp": 1706500000.123, "channel_idx": 0, "count": 3}, ... ] } """ if not meshcli_session: return jsonify({'success': False, 'error': 'Not initialized'}), 503 with meshcli_session.echo_lock: result = [] for pkt_payload, data in meshcli_session.echo_counts.items(): result.append({ 'timestamp': data['timestamp'], 'channel_idx': data['channel_idx'], 'count': len(data['paths']) }) return jsonify({'success': True, 'echo_counts': result}), 200 # ============================================================================= # WebSocket handlers for console # ============================================================================= @socketio.on('connect', namespace='/console') def console_connect(): """Handle console client connection""" logger.info(f"Console client connected: {request.sid}") emit('console_status', {'status': 'connected', 'message': 'Connected to meshcli'}) @socketio.on('disconnect', namespace='/console') def console_disconnect(): """Handle console client disconnection""" logger.info(f"Console client disconnected: {request.sid}") @socketio.on('send_command', namespace='/console') def handle_console_command(data): """Handle command from console client""" if not meshcli_session or not meshcli_session.process: emit('command_response', {'success': False, 'error': 'meshcli session not available'}) return command_text = data.get('command', '').strip() if not command_text: return logger.info(f"Console command from {request.sid}: {command_text}") # Execute command asynchronously using socketio background task def execute_async(): meshcli_session.execute_ws_command(command_text, request.sid) socketio.start_background_task(execute_async) if __name__ == '__main__': logger.info(f"Starting MeshCore Bridge on port 5001") logger.info(f"Serial port: {MC_SERIAL_PORT}") logger.info(f"Config dir: {MC_CONFIG_DIR}") logger.info(f"Device name: {MC_DEVICE_NAME}") # Initialize persistent meshcli session try: meshcli_session = MeshCLISession( serial_port=MC_SERIAL_PORT, config_dir=MC_CONFIG_DIR, device_name=MC_DEVICE_NAME ) logger.info(f"Advert logging to: {meshcli_session.advert_log_path}") except Exception as e: logger.error(f"Failed to initialize meshcli session: {e}") logger.error("Bridge will start but /cli endpoint will be unavailable") # Run with SocketIO (supports WebSocket) on all interfaces socketio.run(app, host='0.0.0.0', port=5001, debug=False)