""" Multi-hardware SDR device detection. Detects RTL-SDR devices via rtl_test and other SDR hardware via SoapySDR. """ from __future__ import annotations import logging import re import shutil import subprocess from typing import Optional from .base import SDRCapabilities, SDRDevice, SDRType logger = logging.getLogger(__name__) def _check_tool(name: str) -> bool: """Check if a tool is available in PATH.""" return shutil.which(name) is not None def _get_capabilities_for_type(sdr_type: SDRType) -> SDRCapabilities: """Get default capabilities for an SDR type.""" # Import here to avoid circular imports from .rtlsdr import RTLSDRCommandBuilder from .limesdr import LimeSDRCommandBuilder from .hackrf import HackRFCommandBuilder from .airspy import AirspyCommandBuilder from .sdrplay import SDRPlayCommandBuilder builders = { SDRType.RTL_SDR: RTLSDRCommandBuilder, SDRType.LIME_SDR: LimeSDRCommandBuilder, SDRType.HACKRF: HackRFCommandBuilder, SDRType.AIRSPY: AirspyCommandBuilder, SDRType.SDRPLAY: SDRPlayCommandBuilder, } builder_class = builders.get(sdr_type) if builder_class: return builder_class.CAPABILITIES # Fallback generic capabilities return SDRCapabilities( sdr_type=sdr_type, freq_min_mhz=1.0, freq_max_mhz=6000.0, gain_min=0.0, gain_max=50.0, sample_rates=[2048000], supports_bias_t=False, supports_ppm=False, tx_capable=False ) def _driver_to_sdr_type(driver: str) -> Optional[SDRType]: """Map SoapySDR driver name to SDRType.""" mapping = { 'rtlsdr': SDRType.RTL_SDR, 'lime': SDRType.LIME_SDR, 'limesdr': SDRType.LIME_SDR, 'hackrf': SDRType.HACKRF, 'airspy': SDRType.AIRSPY, 'airspyhf': SDRType.AIRSPY, # Airspy HF+ uses same builder 'sdrplay': SDRType.SDRPLAY, # Future support # 'uhd': SDRType.USRP, # 'bladerf': SDRType.BLADE_RF, } return mapping.get(driver.lower()) def detect_rtlsdr_devices() -> list[SDRDevice]: """ Detect RTL-SDR devices using rtl_test. This uses the native rtl_test tool for best compatibility with existing RTL-SDR installations. """ devices: list[SDRDevice] = [] if not _check_tool('rtl_test'): logger.debug("rtl_test not found, skipping RTL-SDR detection") return devices try: import os import platform env = os.environ.copy() if platform.system() == 'Darwin': lib_paths = ['/usr/local/lib', '/opt/homebrew/lib'] current_ld = env.get('DYLD_LIBRARY_PATH', '') env['DYLD_LIBRARY_PATH'] = ':'.join(lib_paths + [current_ld] if current_ld else lib_paths) result = subprocess.run( ['rtl_test', '-t'], capture_output=True, text=True, timeout=5, env=env ) output = result.stderr + result.stdout # Parse device info from rtl_test output # Format: "0: Realtek, RTL2838UHIDIR, SN: 00000001" device_pattern = r'(\d+):\s+(.+?)(?:,\s*SN:\s*(\S+))?$' from .rtlsdr import RTLSDRCommandBuilder for line in output.split('\n'): line = line.strip() match = re.match(device_pattern, line) if match: devices.append(SDRDevice( sdr_type=SDRType.RTL_SDR, index=int(match.group(1)), name=match.group(2).strip().rstrip(','), serial=match.group(3) or 'N/A', driver='rtlsdr', capabilities=RTLSDRCommandBuilder.CAPABILITIES )) # Fallback: if we found devices but couldn't parse details if not devices: found_match = re.search(r'Found (\d+) device', output) if found_match: count = int(found_match.group(1)) for i in range(count): devices.append(SDRDevice( sdr_type=SDRType.RTL_SDR, index=i, name=f'RTL-SDR Device {i}', serial='Unknown', driver='rtlsdr', capabilities=RTLSDRCommandBuilder.CAPABILITIES )) except subprocess.TimeoutExpired: logger.warning("rtl_test timed out") except Exception as e: logger.debug(f"RTL-SDR detection error: {e}") return devices def _find_soapy_util() -> str | None: """Find SoapySDR utility command (name varies by distribution).""" # Try different command names used across distributions for cmd in ['SoapySDRUtil', 'soapy_sdr_util', 'soapysdr-util']: if _check_tool(cmd): return cmd return None def _get_soapy_env() -> dict: """Get environment variables needed for SoapySDR on macOS. On macOS with Homebrew, SoapySDR modules are installed in paths that require SOAPY_SDR_ROOT or DYLD_LIBRARY_PATH to be set. This fixes detection issues where modules like SoapyHackRF are installed but not found by SoapySDRUtil. See: https://github.com/smittix/intercept/issues/77 """ import os import platform env = os.environ.copy() if platform.system() == 'Darwin': # Homebrew paths for Apple Silicon and Intel Macs homebrew_paths = ['/opt/homebrew', '/usr/local'] lib_paths = [] for base in homebrew_paths: lib_path = f'{base}/lib' if os.path.isdir(lib_path): lib_paths.append(lib_path) if lib_paths: current_dyld = env.get('DYLD_LIBRARY_PATH', '') env['DYLD_LIBRARY_PATH'] = ':'.join(lib_paths + ([current_dyld] if current_dyld else [])) # Set SOAPY_SDR_ROOT if we found Homebrew installation for base in homebrew_paths: if os.path.isdir(f'{base}/lib/SoapySDR'): env['SOAPY_SDR_ROOT'] = base break return env def detect_soapy_devices(skip_types: Optional[set[SDRType]] = None) -> list[SDRDevice]: """ Detect SDR devices via SoapySDR. This detects LimeSDR, HackRF, Airspy, and other SoapySDR-compatible devices. Args: skip_types: Set of SDRType values to skip (e.g., if already found via native detection) """ devices: list[SDRDevice] = [] skip_types = skip_types or set() soapy_cmd = _find_soapy_util() if not soapy_cmd: logger.debug("SoapySDR utility not found, skipping SoapySDR detection") return devices try: # Use macOS-aware environment to find Homebrew-installed modules env = _get_soapy_env() result = subprocess.run( [soapy_cmd, '--find'], capture_output=True, text=True, timeout=10, env=env ) # Parse SoapySDR output # Format varies but typically includes lines like: # " driver = lime" # " serial = 0009060B00123456" # " label = LimeSDR Mini [USB 3.0] 0009060B00123456" current_device: dict = {} device_counts: dict[SDRType, int] = {} for line in result.stdout.split('\n'): line = line.strip() # Start of new device block if line.startswith('Found device'): if current_device.get('driver'): _add_soapy_device(devices, current_device, device_counts, skip_types) current_device = {} continue # Parse key = value pairs if ' = ' in line: key, value = line.split(' = ', 1) key = key.strip() value = value.strip() current_device[key] = value # Don't forget the last device if current_device.get('driver'): _add_soapy_device(devices, current_device, device_counts, skip_types) except subprocess.TimeoutExpired: logger.warning("SoapySDRUtil timed out") except Exception as e: logger.debug(f"SoapySDR detection error: {e}") return devices def _add_soapy_device( devices: list[SDRDevice], device_info: dict, device_counts: dict[SDRType, int], skip_types: set[SDRType] ) -> None: """Add a device from SoapySDR detection to the list.""" driver = device_info.get('driver', '').lower() sdr_type = _driver_to_sdr_type(driver) if not sdr_type: logger.debug(f"Unknown SoapySDR driver: {driver}") return # Skip device types that were already found via native detection if sdr_type in skip_types: logger.debug(f"Skipping {driver} from SoapySDR (already found via native detection)") return # Track device index per type if sdr_type not in device_counts: device_counts[sdr_type] = 0 index = device_counts[sdr_type] device_counts[sdr_type] += 1 devices.append(SDRDevice( sdr_type=sdr_type, index=index, name=device_info.get('label', device_info.get('driver', 'Unknown')), serial=device_info.get('serial', 'N/A'), driver=driver, capabilities=_get_capabilities_for_type(sdr_type) )) def detect_hackrf_devices() -> list[SDRDevice]: """ Detect HackRF devices using native hackrf_info tool. Fallback for when SoapySDR is not available. """ devices: list[SDRDevice] = [] if not _check_tool('hackrf_info'): return devices try: result = subprocess.run( ['hackrf_info'], capture_output=True, text=True, timeout=5 ) # Parse hackrf_info output # Look for "Serial number:" lines serial_pattern = r'Serial number:\s*(\S+)' from .hackrf import HackRFCommandBuilder serials_found = re.findall(serial_pattern, result.stdout) for i, serial in enumerate(serials_found): devices.append(SDRDevice( sdr_type=SDRType.HACKRF, index=i, name=f'HackRF One', serial=serial, driver='hackrf', capabilities=HackRFCommandBuilder.CAPABILITIES )) # Fallback: check if any HackRF found without serial if not devices and 'Found HackRF' in result.stdout: devices.append(SDRDevice( sdr_type=SDRType.HACKRF, index=0, name='HackRF One', serial='Unknown', driver='hackrf', capabilities=HackRFCommandBuilder.CAPABILITIES )) except Exception as e: logger.debug(f"HackRF detection error: {e}") return devices def probe_rtlsdr_device(device_index: int) -> str | None: """Probe whether an RTL-SDR device is available at the USB level. Runs a quick ``rtl_test`` invocation targeting a single device to check for USB claim errors that indicate the device is held by an external process (or a stale handle from a previous crash). Args: device_index: The RTL-SDR device index to probe. Returns: An error message string if the device cannot be opened, or ``None`` if the device is available. """ if not _check_tool('rtl_test'): # Can't probe without rtl_test — let the caller proceed and # surface errors from the actual decoder process instead. return None try: import os import platform env = os.environ.copy() if platform.system() == 'Darwin': lib_paths = ['/usr/local/lib', '/opt/homebrew/lib'] current_ld = env.get('DYLD_LIBRARY_PATH', '') env['DYLD_LIBRARY_PATH'] = ':'.join( lib_paths + [current_ld] if current_ld else lib_paths ) result = subprocess.run( ['rtl_test', '-d', str(device_index), '-t'], capture_output=True, text=True, timeout=3, env=env, ) output = result.stderr + result.stdout if 'usb_claim_interface' in output or 'Failed to open' in output: logger.warning( f"RTL-SDR device {device_index} USB probe failed: " f"device busy or unavailable" ) return ( f'SDR device {device_index} is busy at the USB level — ' f'another process outside INTERCEPT may be using it. ' f'Check for stale rtl_fm/rtl_433/dump1090 processes, ' f'or try a different device.' ) except subprocess.TimeoutExpired: # rtl_test opened the device successfully and is running the # test — that means the device *is* available. pass except Exception as e: logger.debug(f"RTL-SDR probe error for device {device_index}: {e}") return None def detect_all_devices() -> list[SDRDevice]: """ Detect all connected SDR devices across all supported hardware types. Returns a unified list of SDRDevice objects sorted by type and index. """ devices: list[SDRDevice] = [] skip_in_soapy: set[SDRType] = set() # RTL-SDR via native tool (primary method) rtlsdr_devices = detect_rtlsdr_devices() devices.extend(rtlsdr_devices) if rtlsdr_devices: skip_in_soapy.add(SDRType.RTL_SDR) # Native HackRF detection (primary method) hackrf_devices = detect_hackrf_devices() devices.extend(hackrf_devices) if hackrf_devices: skip_in_soapy.add(SDRType.HACKRF) # SoapySDR devices (LimeSDR, Airspy, and fallback for HackRF/RTL-SDR if native failed) soapy_devices = detect_soapy_devices(skip_types=skip_in_soapy) devices.extend(soapy_devices) # Sort by type name, then index devices.sort(key=lambda d: (d.sdr_type.value, d.index)) logger.info(f"Detected {len(devices)} SDR device(s)") for d in devices: logger.debug(f" {d.sdr_type.value}:{d.index} - {d.name} (serial: {d.serial})") return devices