def test_register_listener(self): """ Test registerListener(self, listener) """ sfp = SpiderFootPlugin() sfp.registerListener(None) self.assertEqual('TBD', 'TBD')
def startScan(self): global globalScanStatus self.ts = threading.local() self.ts.moduleInstances = dict() self.ts.sf = SpiderFoot(self.temp['config']) self.ts.config = deepcopy(self.temp['config']) self.ts.dbh = SpiderFootDb(self.temp['config']) self.ts.targetValue = self.temp['targetValue'] self.ts.targetType = self.temp['targetType'] self.ts.moduleList = self.temp['moduleList'] self.ts.modconfig = dict() self.ts.scanName = self.temp['scanName'] self.ts.scanId = self.temp['scanId'] aborted = False self.ts.sf.setDbh(self.ts.dbh) # Create a unique ID for this scan and create it in the back-end DB. self.ts.sf.setGUID(self.ts.scanId) self.ts.dbh.scanInstanceCreate(self.ts.scanId, self.ts.scanName, self.ts.targetValue) self.setStatus("STARTING", time.time() * 1000, None) # Create our target target = SpiderFootTarget(self.ts.targetValue, self.ts.targetType) # Save the config current set for this scan self.ts.config['_modulesenabled'] = self.ts.moduleList self.ts.dbh.scanConfigSet(self.ts.scanId, self.ts.sf.configSerialize(deepcopy(self.ts.config))) self.ts.sf.status("Scan [" + self.ts.scanId + "] initiated.") # moduleList = list of modules the user wants to run try: # Process global options that point to other places for data # If a SOCKS server was specified, set it up if self.ts.config['_socks1type'] != '': socksType = socks.PROXY_TYPE_SOCKS4 socksDns = self.ts.config['_socks6dns'] socksAddr = self.ts.config['_socks2addr'] socksPort = int(self.ts.config['_socks3port']) socksUsername = '' socksPassword = '' if self.ts.config['_socks1type'] == '4': socksType = socks.PROXY_TYPE_SOCKS4 if self.ts.config['_socks1type'] == '5': socksType = socks.PROXY_TYPE_SOCKS5 socksUsername = self.ts.config['_socks4user'] socksPassword = self.ts.config['_socks5pwd'] if self.ts.config['_socks1type'] == 'HTTP': socksType = socks.PROXY_TYPE_HTTP self.ts.sf.debug("SOCKS: " + socksAddr + ":" + str(socksPort) + \ "(" + socksUsername + ":" + socksPassword + ")") socks.setdefaultproxy(socksType, socksAddr, socksPort, socksDns, socksUsername, socksPassword) # Override the default socket and getaddrinfo calls with the # SOCKS ones socket.socket = socks.socksocket socket.create_connection = socks.create_connection socket.getaddrinfo = socks.getaddrinfo self.ts.sf.updateSocket(socket) # Override the default DNS server if self.ts.config['_dnsserver'] != "": res = dns.resolver.Resolver() res.nameservers = [self.ts.config['_dnsserver']] dns.resolver.override_system_resolver(res) else: dns.resolver.restore_system_resolver() # Set the user agent self.ts.config['_useragent'] = self.ts.sf.optValueToData( self.ts.config['_useragent']) # Get internet TLDs tlddata = self.ts.sf.cacheGet("internet_tlds", self.ts.config['_internettlds_cache']) # If it wasn't loadable from cache, load it from scratch if tlddata is None: self.ts.config['_internettlds'] = self.ts.sf.optValueToData( self.ts.config['_internettlds']) self.ts.sf.cachePut("internet_tlds", self.ts.config['_internettlds']) else: self.ts.config["_internettlds"] = tlddata.splitlines() for modName in self.ts.moduleList: if modName == '': continue module = __import__('modules.' + modName, globals(), locals(), [modName]) mod = getattr(module, modName)() mod.__name__ = modName # Set up the module # Configuration is a combined global config with module-specific options self.ts.modconfig[modName] = deepcopy(self.ts.config['__modules__'][modName]['opts']) for opt in self.ts.config.keys(): self.ts.modconfig[modName][opt] = deepcopy(self.ts.config[opt]) mod.clearListeners() # clear any listener relationships from the past mod.setup(self.ts.sf, self.ts.modconfig[modName]) mod.setDbh(self.ts.dbh) mod.setScanId(self.ts.scanId) # Give modules a chance to 'enrich' the original target with # aliases of that target. newTarget = mod.enrichTarget(target) if newTarget is not None: target = newTarget self.ts.moduleInstances[modName] = mod # Override the module's local socket module # to be the SOCKS one. if self.ts.config['_socks1type'] != '': mod._updateSocket(socket) self.ts.sf.status(modName + " module loaded.") # Register listener modules and then start all modules sequentially for module in self.ts.moduleInstances.values(): # Register the target with the module module.setTarget(target) for listenerModule in self.ts.moduleInstances.values(): # Careful not to register twice or you will get duplicate events if listenerModule in module._listenerModules: continue # Note the absence of a check for whether a module can register # to itself. That is intentional because some modules will # act on their own notifications (e.g. sfp_dns)! if listenerModule.watchedEvents() is not None: module.registerListener(listenerModule) # Now we are ready to roll.. self.setStatus("RUNNING") # Create a pseudo module for the root event to originate from psMod = SpiderFootPlugin() psMod.__name__ = "SpiderFoot UI" psMod.setTarget(target) psMod.clearListeners() for mod in self.ts.moduleInstances.values(): if mod.watchedEvents() is not None: psMod.registerListener(mod) # Create the "ROOT" event which un-triggered modules will link events to rootEvent = SpiderFootEvent("ROOT", self.ts.targetValue, "", None) psMod.notifyListeners(rootEvent) firstEvent = SpiderFootEvent(self.ts.targetType, self.ts.targetValue, "SpiderFoot UI", rootEvent) psMod.notifyListeners(firstEvent) # Check in case the user requested to stop the scan between modules # initializing for module in self.ts.moduleInstances.values(): if module.checkForStop(): self.setStatus('ABORTING') aborted = True break if aborted: self.ts.sf.status("Scan [" + self.ts.scanId + "] aborted.") self.setStatus("ABORTED", None, time.time() * 1000) else: self.ts.sf.status("Scan [" + self.ts.scanId + "] completed.") self.setStatus("FINISHED", None, time.time() * 1000) except BaseException as e: exc_type, exc_value, exc_traceback = sys.exc_info() self.ts.sf.error("Unhandled exception (" + e.__class__.__name__ + ") " + \ "encountered during scan. Please report this as a bug: " + \ repr(traceback.format_exception(exc_type, exc_value, exc_traceback)), False) self.ts.sf.status("Scan [" + self.ts.scanId + "] failed: " + str(e)) self.setStatus("ERROR-FAILED", None, time.time() * 1000) self.ts.dbh.close() del self.ts del self.temp
def startScan(self): """Start running a scan.""" aborted = False self.setStatus("STARTING", time.time() * 1000, None) self.sf.status("Scan [" + self.scanId + "] initiated.") try: # moduleList = list of modules the user wants to run for modName in self.moduleList: if modName == '': continue try: module = __import__('modules.' + modName, globals(), locals(), [modName]) except ImportError: self.sf.error("Failed to load module: " + modName, False) continue mod = getattr(module, modName)() mod.__name__ = modName # Module may have been renamed or removed if modName not in self.config['__modules__']: continue # Set up the module # Configuration is a combined global config with module-specific options self.modconfig[modName] = deepcopy(self.config['__modules__'][modName]['opts']) for opt in list(self.config.keys()): self.modconfig[modName][opt] = deepcopy(self.config[opt]) mod.clearListeners() # clear any listener relationships from the past mod.setup(self.sf, self.modconfig[modName]) mod.setDbh(self.dbh) mod.setScanId(self.scanId) # Give modules a chance to 'enrich' the original target with # aliases of that target. newTarget = mod.enrichTarget(self.target) if newTarget is not None: self.target = newTarget self.moduleInstances[modName] = mod # Override the module's local socket module # to be the SOCKS one. if self.config['_socks1type'] != '': mod._updateSocket(socket) # Set up event output filters if requested if self.config['__outputfilter']: mod.setOutputFilter(self.config['__outputfilter']) self.sf.status(modName + " module loaded.") # Register listener modules and then start all modules sequentially for module in list(self.moduleInstances.values()): # Register the target with the module module.setTarget(self.target) for listenerModule in list(self.moduleInstances.values()): # Careful not to register twice or you will get duplicate events if listenerModule in module._listenerModules: continue # Note the absence of a check for whether a module can register # to itself. That is intentional because some modules will # act on their own notifications (e.g. sfp_dns)! if listenerModule.watchedEvents() is not None: module.registerListener(listenerModule) # Now we are ready to roll.. self.setStatus("RUNNING") # Create a pseudo module for the root event to originate from psMod = SpiderFootPlugin() psMod.__name__ = "SpiderFoot UI" psMod.setTarget(self.target) psMod.setDbh(self.dbh) psMod.clearListeners() for mod in list(self.moduleInstances.values()): if mod.watchedEvents() is not None: psMod.registerListener(mod) # Create the "ROOT" event which un-triggered modules will link events to rootEvent = SpiderFootEvent("ROOT", self.targetValue, "", None) psMod.notifyListeners(rootEvent) firstEvent = SpiderFootEvent(self.targetType, self.targetValue, "SpiderFoot UI", rootEvent) psMod.notifyListeners(firstEvent) # Special case.. check if an INTERNET_NAME is also a domain if self.targetType == 'INTERNET_NAME': if self.sf.isDomain(self.targetValue, self.config['_internettlds']): firstEvent = SpiderFootEvent('DOMAIN_NAME', self.targetValue, "SpiderFoot UI", rootEvent) psMod.notifyListeners(firstEvent) # If in interactive mode, loop through this shared global variable # waiting for inputs, and process them until my status is set to # FINISHED. # Check in case the user requested to stop the scan between modules # initializing for module in list(self.moduleInstances.values()): if module.checkForStop(): self.setStatus('ABORTING') aborted = True break if aborted: self.sf.status("Scan [" + self.scanId + "] aborted.") self.setStatus("ABORTED", None, time.time() * 1000) else: self.sf.status("Scan [" + self.scanId + "] completed.") self.setStatus("FINISHED", None, time.time() * 1000) except BaseException as e: exc_type, exc_value, exc_traceback = sys.exc_info() self.sf.error("Unhandled exception (" + e.__class__.__name__ + ") " + \ "encountered during scan. Please report this as a bug: " + \ repr(traceback.format_exception(exc_type, exc_value, exc_traceback)), False) self.sf.status("Scan [" + self.scanId + "] failed: " + str(e)) self.setStatus("ERROR-FAILED", None, time.time() * 1000) self.dbh.close()
def startScan(self): """Start running a scan.""" self.moduleInstances = dict() self.sf = SpiderFoot(self.temp['config']) self.config = deepcopy(self.temp['config']) self.dbh = SpiderFootDb(self.temp['config']) self.targetValue = self.temp['targetValue'] self.targetType = self.temp['targetType'] self.moduleList = self.temp['moduleList'] self.modconfig = dict() self.scanName = self.temp['scanName'] self.scanId = self.temp['scanId'] aborted = False self.sf.setDbh(self.dbh) # Create a unique ID for this scan and create it in the back-end DB. self.sf.setGUID(self.scanId) self.dbh.scanInstanceCreate(self.scanId, self.scanName, self.targetValue) self.setStatus("STARTING", time.time() * 1000, None) # Create our target try: target = SpiderFootTarget(self.targetValue, self.targetType) except BaseException as e: self.sf.status("Scan [%s] failed: %s" % (self.scanId, e)) self.setStatus("ERROR-FAILED", None, time.time() * 1000) return None # Save the config current set for this scan self.config['_modulesenabled'] = self.moduleList self.dbh.scanConfigSet(self.scanId, self.sf.configSerialize(deepcopy(self.config))) self.sf.status("Scan [" + self.scanId + "] initiated.") # moduleList = list of modules the user wants to run try: # Process global options that point to other places for data # If a SOCKS server was specified, set it up if self.config['_socks1type'] != '': socksDns = self.config['_socks6dns'] socksAddr = self.config['_socks2addr'] socksPort = int(self.config['_socks3port']) socksUsername = self.config['_socks4user'] or '' socksPassword = self.config['_socks5pwd'] or '' creds = "" if socksUsername and socksPassword: creds = socksUsername + ":" + socksPassword + "@" proxy = creds + socksAddr + ":" + str(socksPort) if self.config['_socks1type'] == '4': proxy = 'socks4://' + proxy elif self.config['_socks1type'] == '5': proxy = 'socks5://' + proxy elif self.config['_socks1type'] == 'HTTP': proxy = 'http://' + proxy elif self.config['_socks1type'] == 'TOR': proxy = 'socks5h://' + proxy self.sf.debug("SOCKS: " + socksAddr + ":" + str(socksPort) + \ "(" + socksUsername + ":" + socksPassword + ")") self.sf.updateSocket(proxy) else: self.sf.revertSocket() # Override the default DNS server if self.config['_dnsserver'] != "": res = dns.resolver.Resolver() res.nameservers = [self.config['_dnsserver']] dns.resolver.override_system_resolver(res) else: dns.resolver.restore_system_resolver() # Set the user agent self.config['_useragent'] = self.sf.optValueToData( self.config['_useragent']) # Get internet TLDs tlddata = self.sf.cacheGet("internet_tlds", self.config['_internettlds_cache']) # If it wasn't loadable from cache, load it from scratch if tlddata is None: self.config['_internettlds'] = self.sf.optValueToData( self.config['_internettlds']) self.sf.cachePut("internet_tlds", self.config['_internettlds']) else: self.config["_internettlds"] = tlddata.splitlines() for modName in self.moduleList: if modName == '': continue try: module = __import__('modules.' + modName, globals(), locals(), [modName]) except ImportError: self.sf.error("Failed to load module: " + modName, False) continue mod = getattr(module, modName)() mod.__name__ = modName # Module may have been renamed or removed if modName not in self.config['__modules__']: continue # Set up the module # Configuration is a combined global config with module-specific options self.modconfig[modName] = deepcopy(self.config['__modules__'][modName]['opts']) for opt in list(self.config.keys()): self.modconfig[modName][opt] = deepcopy(self.config[opt]) mod.clearListeners() # clear any listener relationships from the past mod.setup(self.sf, self.modconfig[modName]) mod.setDbh(self.dbh) mod.setScanId(self.scanId) # Give modules a chance to 'enrich' the original target with # aliases of that target. newTarget = mod.enrichTarget(target) if newTarget is not None: target = newTarget self.moduleInstances[modName] = mod # Override the module's local socket module # to be the SOCKS one. if self.config['_socks1type'] != '': mod._updateSocket(socket) # Set up event output filters if requested if self.config['__outputfilter']: mod.setOutputFilter(self.config['__outputfilter']) self.sf.status(modName + " module loaded.") # Register listener modules and then start all modules sequentially for module in list(self.moduleInstances.values()): # Register the target with the module module.setTarget(target) for listenerModule in list(self.moduleInstances.values()): # Careful not to register twice or you will get duplicate events if listenerModule in module._listenerModules: continue # Note the absence of a check for whether a module can register # to itself. That is intentional because some modules will # act on their own notifications (e.g. sfp_dns)! if listenerModule.watchedEvents() is not None: module.registerListener(listenerModule) # Now we are ready to roll.. self.setStatus("RUNNING") # Create a pseudo module for the root event to originate from psMod = SpiderFootPlugin() psMod.__name__ = "SpiderFoot UI" psMod.setTarget(target) psMod.setDbh(self.dbh) psMod.clearListeners() for mod in list(self.moduleInstances.values()): if mod.watchedEvents() is not None: psMod.registerListener(mod) # Create the "ROOT" event which un-triggered modules will link events to rootEvent = SpiderFootEvent("ROOT", self.targetValue, "", None) psMod.notifyListeners(rootEvent) firstEvent = SpiderFootEvent(self.targetType, self.targetValue, "SpiderFoot UI", rootEvent) psMod.notifyListeners(firstEvent) # Special case.. check if an INTERNET_NAME is also a domain if self.targetType == 'INTERNET_NAME': if self.sf.isDomain(self.targetValue, self.config['_internettlds']): firstEvent = SpiderFootEvent('DOMAIN_NAME', self.targetValue, "SpiderFoot UI", rootEvent) psMod.notifyListeners(firstEvent) # If in interactive mode, loop through this shared global variable # waiting for inputs, and process them until my status is set to # FINISHED. # Check in case the user requested to stop the scan between modules # initializing for module in list(self.moduleInstances.values()): if module.checkForStop(): self.setStatus('ABORTING') aborted = True break if aborted: self.sf.status("Scan [" + self.scanId + "] aborted.") self.setStatus("ABORTED", None, time.time() * 1000) else: self.sf.status("Scan [" + self.scanId + "] completed.") self.setStatus("FINISHED", None, time.time() * 1000) except BaseException as e: exc_type, exc_value, exc_traceback = sys.exc_info() self.sf.error("Unhandled exception (" + e.__class__.__name__ + ") " + \ "encountered during scan. Please report this as a bug: " + \ repr(traceback.format_exception(exc_type, exc_value, exc_traceback)), False) self.sf.status("Scan [" + self.scanId + "] failed: " + str(e)) self.setStatus("ERROR-FAILED", None, time.time() * 1000) self.dbh.close()
def startScan(self): global globalScanStatus self.ts = threading.local() self.ts.moduleInstances = dict() self.ts.sf = SpiderFoot(self.temp['config']) self.ts.config = deepcopy(self.temp['config']) self.ts.dbh = SpiderFootDb(self.temp['config']) self.ts.targetValue = self.temp['targetValue'] self.ts.targetType = self.temp['targetType'] self.ts.moduleList = self.temp['moduleList'] self.ts.modconfig = dict() self.ts.scanName = self.temp['scanName'] self.ts.scanId = self.temp['scanId'] aborted = False self.ts.sf.setDbh(self.ts.dbh) # Create a unique ID for this scan and create it in the back-end DB. self.ts.sf.setGUID(self.ts.scanId) self.ts.dbh.scanInstanceCreate(self.ts.scanId, self.ts.scanName, self.ts.targetValue) self.setStatus("STARTING", time.time() * 1000, None) # Create our target target = SpiderFootTarget(self.ts.targetValue, self.ts.targetType) # Save the config current set for this scan self.ts.config['_modulesenabled'] = self.ts.moduleList self.ts.dbh.scanConfigSet( self.ts.scanId, self.ts.sf.configSerialize(deepcopy(self.ts.config))) self.ts.sf.status("Scan [" + self.ts.scanId + "] initiated.") # moduleList = list of modules the user wants to run try: # Process global options that point to other places for data # Save default socket methods that will be overridden if not hasattr(socket, 'savedsocket'): socket.savedsocket = socket.socket socket.savedcreate_connection = socket.create_connection #socket.savedgetaddrinfo = socket.getaddrinfo # If a SOCKS server was specified, set it up if self.ts.config['_socks1type'] != '': socksType = socks.PROXY_TYPE_SOCKS4 socksDns = self.ts.config['_socks6dns'] socksAddr = self.ts.config['_socks2addr'] socksPort = int(self.ts.config['_socks3port']) socksUsername = '' socksPassword = '' if self.ts.config['_socks1type'] == '4': socksType = socks.PROXY_TYPE_SOCKS4 if self.ts.config['_socks1type'] == '5': socksType = socks.PROXY_TYPE_SOCKS5 socksUsername = self.ts.config['_socks4user'] socksPassword = self.ts.config['_socks5pwd'] if self.ts.config['_socks1type'] == 'HTTP': socksType = socks.PROXY_TYPE_HTTP if self.ts.config['_socks1type'] == 'TOR': socksType = socks.PROXY_TYPE_SOCKS5 self.ts.sf.debug("SOCKS: " + socksAddr + ":" + str(socksPort) + \ "(" + socksUsername + ":" + socksPassword + ")") socks.setdefaultproxy(socksType, socksAddr, socksPort, socksDns, socksUsername, socksPassword) # Override the default socket and getaddrinfo calls with the # SOCKS ones. Just ensure we don't also try and SOCKS-proxy # connectivity to the TOR control port. def _create_connection(address, timeout=None, source_address=None): if socksAddr not in address: sock = socks.socksocket() sock.setproxy(socks.PROXY_TYPE_SOCKS5, socksAddr, socksPort) sock.settimeout(self.ts.config['_fetchtimeout']) sock.connect(address) return sock else: sock = socket.socket sock.settimeout(self.ts.config['_fetchtimeout']) sock.connect(address) return sock socket.socket = socks.socksocket socket.setdefaulttimeout(self.ts.config['_fetchtimeout']) socket.create_connection = _create_connection #socket.getaddrinfo = socks.getaddrinfo self.ts.sf.updateSocket(socket) else: # BUG: If the user had a SOCKS proxy set # and then decided to unset it, the original socket class # is not reverted to its default state - we still have # the SOCKS version of socket. socket.socket = socket.savedsocket socket.setdefaulttimeout(self.ts.config['_fetchtimeout']) socket.create_connection = socket.savedcreate_connection #socket.getaddrinfo = socket.savedgetaddrinfo self.ts.sf.revertSocket() # Override the default DNS server if self.ts.config['_dnsserver'] != "": res = dns.resolver.Resolver() res.nameservers = [self.ts.config['_dnsserver']] dns.resolver.override_system_resolver(res) else: dns.resolver.restore_system_resolver() # Set the user agent self.ts.config['_useragent'] = self.ts.sf.optValueToData( self.ts.config['_useragent']) # Get internet TLDs tlddata = self.ts.sf.cacheGet( "internet_tlds", self.ts.config['_internettlds_cache']) # If it wasn't loadable from cache, load it from scratch if tlddata is None: self.ts.config['_internettlds'] = self.ts.sf.optValueToData( self.ts.config['_internettlds']) self.ts.sf.cachePut("internet_tlds", self.ts.config['_internettlds']) else: self.ts.config["_internettlds"] = tlddata.splitlines() for modName in self.ts.moduleList: if modName == '': continue module = __import__('modules.' + modName, globals(), locals(), [modName]) mod = getattr(module, modName)() mod.__name__ = modName # Module may have been renamed or removed if modName not in self.ts.config['__modules__']: continue # Set up the module # Configuration is a combined global config with module-specific options self.ts.modconfig[modName] = deepcopy( self.ts.config['__modules__'][modName]['opts']) for opt in self.ts.config.keys(): self.ts.modconfig[modName][opt] = deepcopy( self.ts.config[opt]) mod.clearListeners( ) # clear any listener relationships from the past mod.setup(self.ts.sf, self.ts.modconfig[modName]) mod.setDbh(self.ts.dbh) mod.setScanId(self.ts.scanId) # Give modules a chance to 'enrich' the original target with # aliases of that target. newTarget = mod.enrichTarget(target) if newTarget is not None: target = newTarget self.ts.moduleInstances[modName] = mod # Override the module's local socket module # to be the SOCKS one. if self.ts.config['_socks1type'] != '': mod._updateSocket(socket) # Set up event output filters if requested if self.ts.config['__outputfilter']: mod.setOutputFilter(self.ts.config['__outputfilter']) self.ts.sf.status(modName + " module loaded.") # Register listener modules and then start all modules sequentially for module in self.ts.moduleInstances.values(): # Register the target with the module module.setTarget(target) for listenerModule in self.ts.moduleInstances.values(): # Careful not to register twice or you will get duplicate events if listenerModule in module._listenerModules: continue # Note the absence of a check for whether a module can register # to itself. That is intentional because some modules will # act on their own notifications (e.g. sfp_dns)! if listenerModule.watchedEvents() is not None: module.registerListener(listenerModule) # Now we are ready to roll.. self.setStatus("RUNNING") # Create a pseudo module for the root event to originate from psMod = SpiderFootPlugin() psMod.__name__ = "SpiderFoot UI" psMod.setTarget(target) psMod.clearListeners() for mod in self.ts.moduleInstances.values(): if mod.watchedEvents() is not None: psMod.registerListener(mod) # Create the "ROOT" event which un-triggered modules will link events to rootEvent = SpiderFootEvent("ROOT", self.ts.targetValue, "", None) psMod.notifyListeners(rootEvent) firstEvent = SpiderFootEvent(self.ts.targetType, self.ts.targetValue, "SpiderFoot UI", rootEvent) psMod.notifyListeners(firstEvent) # If in interactive mode, loop through this shared global variable # waiting for inputs, and process them until my status is set to # FINISHED. # Check in case the user requested to stop the scan between modules # initializing for module in self.ts.moduleInstances.values(): if module.checkForStop(): self.setStatus('ABORTING') aborted = True break if aborted: self.ts.sf.status("Scan [" + self.ts.scanId + "] aborted.") self.setStatus("ABORTED", None, time.time() * 1000) else: self.ts.sf.status("Scan [" + self.ts.scanId + "] completed.") self.setStatus("FINISHED", None, time.time() * 1000) except BaseException as e: exc_type, exc_value, exc_traceback = sys.exc_info() self.ts.sf.error("Unhandled exception (" + e.__class__.__name__ + ") " + \ "encountered during scan. Please report this as a bug: " + \ repr(traceback.format_exception(exc_type, exc_value, exc_traceback)), False) self.ts.sf.status("Scan [" + self.ts.scanId + "] failed: " + str(e)) self.setStatus("ERROR-FAILED", None, time.time() * 1000) self.ts.dbh.close() del self.ts del self.temp