Пример #1
0
def parallel_scan_process(options, targets, scan_unique_id, process_number):
    active_threads = []
    verbose_event_info(
        messages("single_process_started").format(process_number))
    total_number_of_modules = len(targets) * len(options.selected_modules)
    total_number_of_modules_counter = 1
    for target in targets:
        for module_name in options.selected_modules:
            thread = Thread(target=perform_scan,
                            args=(options, target, module_name, scan_unique_id,
                                  process_number,
                                  total_number_of_modules_counter,
                                  total_number_of_modules))
            thread.name = f"{target} -> {module_name}"
            thread.start()
            verbose_event_info(
                messages("start_parallel_module_scan").format(
                    process_number, module_name, target,
                    total_number_of_modules_counter, total_number_of_modules))
            total_number_of_modules_counter += 1
            active_threads.append(thread)
            if not wait_for_threads_to_finish(
                    active_threads, options.parallel_module_scan, True):
                return False
    wait_for_threads_to_finish(active_threads, maximum=None, terminable=True)
    return True
Пример #2
0
    def start(self):
        from terminable_thread import Thread
        from core.utility import wait_for_threads_to_finish
        active_threads = []
        from core.alert import warn
        from core.alert import verbose_event_info
        from core.alert import messages

        # counting total number of requests
        total_number_of_requests = 0
        for payload in self.module_content['payloads']:
            if payload['library'] not in self.libraries:
                warn(
                    messages("library_not_supported").format(
                        payload['library']))
                return None
            for step in payload['steps']:
                for _ in step:
                    total_number_of_requests += 1
        request_number_counter = 0
        for payload in self.module_content['payloads']:
            protocol = getattr(
                __import__('core.module_protocols.{library}'.format(
                    library=payload['library']),
                           fromlist=['Engine']), 'Engine')
            for step in payload['steps']:
                for sub_step in step:
                    thread = Thread(
                        target=protocol.run,
                        args=(sub_step, self.module_name, self.target,
                              self.scan_unique_id, self.module_inputs,
                              self.process_number, self.module_thread_number,
                              self.total_module_thread_number,
                              request_number_counter,
                              total_number_of_requests))
                    thread.name = f"{self.target} -> {self.module_name} -> {sub_step}"
                    request_number_counter += 1
                    verbose_event_info(
                        messages("sending_module_request").format(
                            self.process_number, self.module_name, self.target,
                            self.module_thread_number,
                            self.total_module_thread_number,
                            request_number_counter, total_number_of_requests))
                    thread.start()
                    time.sleep(
                        self.module_inputs['time_sleep_between_requests'])
                    active_threads.append(thread)
                    wait_for_threads_to_finish(
                        active_threads,
                        maximum=self.module_inputs['thread_per_host'],
                        terminable=True)
        wait_for_threads_to_finish(active_threads,
                                   maximum=None,
                                   terminable=True)
Пример #3
0
def run_modules_processors(configuration):
    """
    run ModuleProcessor for each modules

    :param configuration: user final configuration
    :return:
    """
    for module in configuration:
        module_processor_thread = Thread(
            target=configuration[module]["module_processor"].processor,
            name=virtual_machine_name_to_container_name(
                configuration[module]["virtual_machine_name"], module))
        module_processor_thread.start()
        processor_threads.append(module_processor_thread)
    return
Пример #4
0
 def __call__(self):
     while True:
         priority, location = self.locations.get()
         _trace("____  got new location:  priority: {0};  location: {1}".format(priority, location))
         fetchingthread = Thread(target=self._fetch_and_put,
                                 args=(priority, location))
         fetchingthread.daemon = True
         fetchingthread.start()
         _trace('__call__: thread started.  joining...')
         fetchingthread.join(self.timeout)
         _trace('__call__: ...joined.')
         try:
             _trace('__call__: raising FetchInterruptError...')
             fetchingthread.raise_exc(FetchInterruptError)
             _trace('__call__: ...raised.  joining...')
             fetchingthread.join()
             _trace('__call__: ...joined.')
         except threading.ThreadError:
             # Happens when the thread completes before the timeout.
             _trace('__call__ got ThreadError.')
             pass
         finally:
             self.locations.task_done()
Пример #5
0
 def __init__(self,
              fetch,
              threadcount,
              results=None,
              timeout=0.1,
              Worker=Worker,
              success=bool,
              adjust_priority=reduce_priority,
              **worker_kwargs):
     self.locations = PriorityQueue()
     self.results = results if results is not None else Queue()
     worker = Worker(self.locations,
                     fetch,
                     self.results,
                     timeout=timeout,
                     success=success,
                     adjust_priority=adjust_priority,
                     **worker_kwargs)
     self.threads = tuple(
         Thread(target=worker, args=()) for i in range(threadcount))
     for thread in self.threads:
         thread.daemon = True
Пример #6
0
def load_honeypot_engine():
    """
    load OHP Engine

    Returns:
        True
    """
    # print logo
    logo()

    # parse argv
    parser, argv_options = argv_parser()

    #########################################
    # argv rules apply
    #########################################
    # check help menu
    if argv_options.show_help_menu:
        parser.print_help()
        exit_success()
    # check for requirements before start
    check_for_requirements(argv_options.start_api_server)
    # check api server flag
    if argv_options.start_api_server:
        start_api_server()
        exit_success()
    # check selected modules
    if argv_options.selected_modules:
        selected_modules = list(set(argv_options.selected_modules.rsplit(",")))
        if "all" in selected_modules:
            selected_modules = load_all_modules()
        if "" in selected_modules:
            selected_modules.remove("")
        # if selected modules are zero
        if not len(selected_modules):
            exit_failure(messages("en", "zero_module_selected"))
        # if module not found
        for module in selected_modules:
            if module not in load_all_modules():
                exit_failure(messages("en", "module_not_found").format(module))
    # check excluded modules
    if argv_options.excluded_modules:
        excluded_modules = list(set(argv_options.excluded_modules.rsplit(",")))
        if "all" in excluded_modules:
            exit_failure("you cannot exclude all modules")
        if "" in excluded_modules:
            excluded_modules.remove("")
        # remove excluded modules
        for module in excluded_modules:
            if module not in load_all_modules():
                exit_failure(messages("en", "module_not_found").format(module))
            # ignore if module not selected, it will remove anyway
            try:
                selected_modules.remove(module)
            except Exception as _:
                del _
        # if selected modules are zero
        if not len(selected_modules):
            exit_failure(messages("en", "zero_module_selected"))
    virtual_machine_container_reset_factory_time_seconds = argv_options. \
        virtual_machine_container_reset_factory_time_seconds
    run_as_test = argv_options.run_as_test
    #########################################
    # argv rules apply
    #########################################
    # build configuration based on selected modules
    configuration = honeypot_configuration_builder(selected_modules)

    info(messages("en", "honeypot_started"))
    info(messages("en", "loading_modules").format(", ".join(selected_modules)))
    # check for conflict in real machine ports and pick new ports
    info("checking for conflicts in ports")
    configuration = conflict_ports(configuration)
    # stop old containers (in case they are not stopped)
    stop_containers(configuration)
    # remove old containers (in case they are not updated)
    remove_old_containers(configuration)
    # remove old images (in case they are not updated)
    remove_old_images(configuration)
    # create new images based on selected modules
    create_new_images(configuration)
    # create OWASP Honeypot networks in case not exist
    create_ohp_networks()
    # start containers based on selected modules
    configuration = start_containers(configuration)
    # start network monitoring thread
    new_network_events_thread = Thread(target=new_network_events,
                                       args=(configuration, ),
                                       name="new_network_events_thread")
    new_network_events_thread.start()
    info("all selected modules started: {0}".format(
        ", ".join(selected_modules)))

    bulk_events_thread = Thread(target=insert_bulk_events_from_thread,
                                args=(),
                                name="insert_events_in_bulk_thread")
    bulk_events_thread.start()

    # run module processors
    run_modules_processors(configuration)

    # check if it's not a test
    if not run_as_test:
        # wait forever! in case user can send ctrl + c to interrupt
        wait_until_interrupt(
            virtual_machine_container_reset_factory_time_seconds,
            configuration, new_network_events_thread)
    # kill the network events thread
    terminate_thread(new_network_events_thread)
    terminate_thread(bulk_events_thread)
    insert_events_in_bulk(
    )  # if in case any events that were not inserted from thread
    # stop created containers
    stop_containers(configuration)
    # stop module processor
    stop_modules_processors(configuration)
    # remove created containers
    remove_old_containers(configuration)
    # remove created images
    remove_old_images(configuration)
    # remove_tmp_directories() error: access denied!
    # kill all missed threads
    for thread in threading.enumerate()[1:]:
        terminate_thread(thread, False)
    info("finished.")
    # reset cmd/terminal color
    finish()
    return True
Пример #7
0
def load_honeypot_engine():
    """
    load OHP Engine

    Returns:
        True
    """
    # print logo
    logo()

    # parse argv
    parser, argv_options = argv_parser()

    # check the language
    if argv_options.language:
        update_language(argv_options)
    #########################################
    # argv rules apply
    #########################################
    # check help menu
    if argv_options.show_help_menu:
        parser.print_help()
        exit_success()
    # check for requirements before start
    check_for_requirements(argv_options.start_api_server)
    # create indices before server start
    create_indices()
    # check api server flag
    if argv_options.start_api_server:
        start_api_server()
        exit_success()

    # Check if the script is running with sudo
    if not os.geteuid() == 0:
        exit_failure(messages['script_must_run_as_root'])
    # Check timeout value if provided
    if argv_options.timeout_value < 1:
        exit_failure(messages["timeout_error"])

    # check selected modules
    if argv_options.selected_modules:
        selected_modules = list(set(argv_options.selected_modules.rsplit(",")))
        if "all" in selected_modules:
            selected_modules = load_all_modules()
        if "" in selected_modules:
            selected_modules.remove("")
        # if selected modules are zero
        if not len(selected_modules):
            exit_failure(messages["no_module_selected_error"])
        # if module not found
        for module in selected_modules:
            if module not in load_all_modules():
                exit_failure("module {0} not found!".format(module))
    # check excluded modules
    if argv_options.excluded_modules:
        excluded_modules = list(set(argv_options.excluded_modules.rsplit(",")))
        if "all" in excluded_modules:
            exit_failure(messages["all_modules_excluded_error"])
        if "" in excluded_modules:
            excluded_modules.remove("")
        # remove excluded modules
        for module in excluded_modules:
            if module not in load_all_modules():
                exit_failure("module {0} not found!".format(module))
            # ignore if module not selected, it will remove anyway
            try:
                selected_modules.remove(module)
            except Exception:
                pass
        # if selected modules are zero
        if not len(selected_modules):
            exit_failure(messages["no_module_selected_error"])
    virtual_machine_container_reset_factory_time_seconds = argv_options. \
        virtual_machine_container_reset_factory_time_seconds
    run_as_test = argv_options.run_as_test
    #########################################
    # argv rules apply
    #########################################
    # build configuration based on selected modules
    configuration = honeypot_configuration_builder(selected_modules)
    # Set network configuration
    network_config = set_network_configuration(argv_options)
    info(messages["start_message"])
    info(messages["loading_modules"].format(", ".join(selected_modules)))
    # check for conflict in real machine ports and pick new ports
    info(messages["check_for_port_conflicts"])
    configuration = conflict_ports(configuration)
    # stop old containers (in case they are not stopped)
    stop_containers(configuration)
    # remove old containers (in case they are not updated)
    remove_old_containers(configuration)
    # remove old images (in case they are not updated)
    remove_old_images(configuration)
    # create new images based on selected modules
    create_new_images(configuration)
    # create OWASP Honeypot networks in case not exist
    create_ohp_networks()
    # start containers based on selected modules
    configuration = start_containers(configuration)
    # network capture process
    mp.set_start_method('spawn')
    # Event queues
    honeypot_events_queue = mp.Queue()
    network_events_queue = mp.Queue()
    # start a new process for network capture
    network_traffic_capture_process = mp.Process(
        target=network_traffic_capture,
        args=(
            configuration,
            honeypot_events_queue,
            network_events_queue,
            network_config,
        ),
        name="network_traffic_capture_process")
    network_traffic_capture_process.start()
    info(messages["selected_modules_started"].format(
        ", ".join(selected_modules)))
    # start a thread to push events to database regularly
    bulk_events_thread = Thread(target=push_events_to_database_from_thread,
                                args=(
                                    honeypot_events_queue,
                                    network_events_queue,
                                ),
                                name="insert_events_in_bulk_thread")
    bulk_events_thread.start()

    # run module processors
    run_modules_processors(configuration)

    # wait forever! in case user can send ctrl + c to interrupt
    exit_flag = wait_until_interrupt(
        virtual_machine_container_reset_factory_time_seconds, configuration,
        network_traffic_capture_process, run_as_test)
    # killed the network traffic capture process by ctrl + c... waiting to end.
    info(messages["killing_capture_process"])
    if run_as_test:
        network_traffic_capture_process.terminate()
    # without ci it will be terminate after a few seconds, it needs to kill the tshark and update pcap file collection
    network_traffic_capture_process.join()
    # if in case any events that were not inserted from thread
    push_events_queues_to_database(honeypot_events_queue, network_events_queue)
    # Kill bulk events thread
    terminate_thread(bulk_events_thread)
    # stop created containers
    stop_containers(configuration)
    # stop module processor
    stop_modules_processors(configuration)
    # remove created containers
    remove_old_containers(configuration)
    # remove created images
    remove_old_images(configuration)
    # remove_tmp_directories() error: access denied!
    # kill all missed threads
    for thread in threading.enumerate()[1:]:
        terminate_thread(thread, False)
    info(messages["finished"])
    # reset cmd/terminal color
    reset_cmd_color()
    return exit_flag
Пример #8
0
 def __call__(self):
     while True:
         priority, location = self.locations.get()
         _trace("____  got new location:  priority: {0};  location: {1}".
                format(priority, location))
         fetchingthread = Thread(target=self._fetch_and_put,
                                 args=(priority, location))
         fetchingthread.daemon = True
         fetchingthread.start()
         _trace('__call__: thread started.  joining...')
         fetchingthread.join(self.timeout)
         _trace('__call__: ...joined.')
         try:
             _trace('__call__: raising FetchInterruptError...')
             fetchingthread.raise_exc(FetchInterruptError)
             _trace('__call__: ...raised.  joining...')
             fetchingthread.join()
             _trace('__call__: ...joined.')
         except threading.ThreadError:
             # Happens when the thread completes before the timeout.
             _trace('__call__ got ThreadError.')
             pass
         finally:
             self.locations.task_done()