Exemplo n.º 1
0
    def background_server(self):
        self.server_sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        self.server_sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
        self.server_sock.bind((self.host, self.master_port))
        self.server_sock.listen(5)

        while True:
            conn, addr = self.server_sock.accept()
            rmtHost = socket.gethostbyaddr(addr[0])[0]
            try:
                message = receive_all_decrypted(conn)
            except (socket.error, ValueError) as e:
                continue

            if message == Commons.ack_preprocess:
                self.num_preprocess_done += 1

            elif message == Commons.finish_compute:
                halt = receive_all_decrypted(conn)
                self.all_done.append(halt)

            elif message == Commons.ack_result:
                self.num_process_done += 1

            elif message == self.fail_message:
                self.failures.append(receive_all_decrypted(conn))

            elif message == Commons.new_master:
                superstep, halt = receive_all_decrypted(conn)
                assert (self.superstep == 0 or self.superstep == superstep)
                self.superstep = superstep
                self.all_done.append(halt)
Exemplo n.º 2
0
    def change_work(self, conn, addr):
        print('receive request to change work')
        superstep, self.alive_workers, vertices_info, v_to_m_dict = receive_all_decrypted(
            conn)
        self.curr_thread.join()
        self.reinit_vars()
        self.superstep, self.v_to_m_dict = superstep, v_to_m_dict
        self.hasFailure = True

        file_edges = checkpt_file_name(self.machine_ix, 0)
        file_vals = checkpt_file_name(self.machine_ix, superstep)
        file_messages = checkpt_message_file_name(self.machine_ix, superstep)
        collect_vertices_info(file_edges, file_vals, file_messages,
                              vertices_info)
        self.vertices = {}

        self.first_len_message = defaultdict(int)
        self.vertex_to_messages = defaultdict(list)
        for v in vertices_info:
            neighbors, value, first_len, messages = vertices_info[v]
            assert (v not in self.vertices)
            self.init_vertex(v)
            for n in neighbors:
                self.vertices[v].neighbors.append([n, 1, self.gethost(n)])
            self.vertices[v].value = value
            self.first_len_message[v] = int(first_len)
            self.vertex_to_messages[v] = map(float, messages)

        self.sorted_vertices = map(str, sorted(map(int, self.vertices.keys())))
        print('Now we have {} vertices~'.format(len(self.sorted_vertices)))
Exemplo n.º 3
0
 def return_result_file(self, conn, addr):
     self.output_filename, = receive_all_decrypted(conn)
     self.load_to_file(self.output_filename)
     dfsWrapper(self.dfs.putFile, self.output_filename)
     sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
     sock.connect((self.addr, self.master_port))
     send_all_encrypted(sock, Commons.ack_result)
Exemplo n.º 4
0
    def start_main_server(self):
        print('I am worker No.{}!'.format(self.machine_ix))
        self.monitor = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        self.monitor.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
        self.monitor.bind((self.host, self.worker_port))
        self.monitor.listen(5)

        while True:
            try:
                conn, addr = self.monitor.accept()
                message = receive_all_decrypted(conn)

                if message == Commons.request_preprocess:
                    self.load_and_preprocess(conn, addr)

                elif message == Commons.request_compute:
                    superstep, checkpt = receive_all_decrypted(conn)
                    self.curr_thread = threading.Thread(target=self.compute,
                                                        args=(superstep,
                                                              checkpt))
                    self.curr_thread.daemon = True
                    self.curr_thread.start()

                elif message == Commons.request_result:  # final step
                    self.return_result_file(conn, addr)

                elif message == Commons.end_now:
                    sys.exit()

                elif message == None:  # for inner vertex communication
                    self.new_thread_queue(receive_all_decrypted(conn), addr)

                elif message == 'buffer_count':
                    self.receive_buffer_count[addr[0]] = receive_all_decrypted(
                        conn)

                if message == Commons.new_master:
                    threading.Thread(target=self.new_master,
                                     args=(addr, )).start()

                elif message == Commons.work_change:
                    self.change_work(conn, addr)

            except (socket.error, ValueError) as e:
                print(e)
                continue
Exemplo n.º 5
0
    def background_server(self, queue):
        conn, addr = self.server_sock.accept()
        rmtHost = socket.gethostbyaddr(addr[0])[0]

        message = receive_all_decrypted(conn)  # the instruction

        if message == self.message_input:
            self.input_task.terminate()
            print

            self.app_file, _ = receive_all_to_target(conn,
                                                     self.messageInterval)
            self.app_args = receive_all_decrypted(conn)
            self.masters_workers = receive_all_decrypted(conn)
            self.is_undirected = receive_all_decrypted(conn)

            if self.host in self.masters_workers[0:2]:
                self.role = 'master'
                self.filename_pair[0], _ = receive_all_to_target(
                    conn, self.messageInterval)
                self.filename_pair[1] = receive_all_decrypted(conn)

                if self.host == self.masters_workers[1]:
                    self.role = 'standby'
                    print 'I am the standby master!'

            else:
                self.role = 'worker'

            queue.put(
                (self.app_file, self.app_args, self.filename_pair, self.role,
                 addr[0], self.masters_workers, self.is_undirected))
            return

        elif message == self.message_output:  # for client and standby
            if self.role != 'standby':  # a hack since self.role not updated in this process
                filename, _ = receive_all_to_target(conn, self.messageInterval)
                assert (filename == self.result_file)
                print 'Task done, result is published to {}'.format(filename)

        elif message == self.message_congrats:
            print('Hehe, now it is my turn')
            self.role = 'master'

        queue.put(self.role)
Exemplo n.º 6
0
 def mostRecentNode(self, targets, filename):
     max_time, max_target = None, None
     for target in targets:
         target_host, target_nodeName, sock = self.getParams(target)
         send_all_encrypted(sock, self.message_ask_time)
         send_all_encrypted(sock, filename)
         timestamp = receive_all_decrypted(sock)
         if max_time == None or timestamp > max_time:
             max_time, max_target = timestamp, target
     return max_target
Exemplo n.º 7
0
    def load_and_preprocess(self, conn, addr):
        start_time = time.time()
        print('receive command to load file')
        self.addr = addr[0]
        self.input_filename, self.v_to_m_dict, self.num_vertices = receive_all_decrypted(
            conn)
        self.input_filename, _ = receive_all_to_target(conn, 0.001)
        self.preprocess(self.input_filename)
        print('preprocess done after {} seconds'.format(time.time() -
                                                        start_time))

        sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        sock.connect((self.addr, self.master_port))
        send_all_encrypted(sock, Commons.ack_preprocess)
Exemplo n.º 8
0
    def server_task(self):
        #first, start local timer, the rest of the process follows this timer
        self.timer.tic()

        # a monitor receive message, check and response, also multicase failure message
        self.monitor = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        self.monitor.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
        self.monitor.bind((self.host, self.port))
        self.monitor.listen(5)

        # self.monitor.listen(10) # UDP doesn't support this
        logging.info(stampedMsg('FS Monitoring process opens.'))

        # keep receiving msgs from other VMs
        # receiving heartbeat and other messages

        # pdb.set_trace()
        while True:
            try:
                conn, addr = self.monitor.accept()
                rmtHost = socket.gethostbyaddr(addr[0])[0]
                logging.debug(
                    stampedMsg('FS Monitor recieve instruction from {}').
                    format(rmtHost))

            except socket.error, e:
                logging.warning("Caught exception socket.error : %s" % e)
                logging.warning(
                    stampedMsg('Fail to receive signal from clients {}'.format(
                        rmtHost)))
                break  #TODO: should we break listening if UDP reception has troubles?

            message = receive_all_decrypted(conn)  # the instruction
            if not message:  # possibly never called in UDP
                logging.info(
                    stampedMsg('Receiving stop signal from clients {}'.format(
                        rmtHost)))
                break

            # log whatever recieved
            logging.debug(stampedMsg(message))

            if message == self.message_file:  # if receive leave signal
                # include filename info for debugging purposes
                if rmtHost == self.hostName:
                    filename = str(receive_all_decrypted(conn))
                else:
                    filename, _ = receive_all_to_target(
                        conn, self.messageInterval)
                logging.info(
                    stampedMsg('receiving file {} from {}'.format(
                        filename, rmtHost)))
                self.local_file_info[filename] = datetime.datetime.now(
                ).isoformat()
                if filename in self.global_file_info:
                    self.global_file_info[filename][0] = self.timer.toc()

            elif message == self.message_data:  # ....
                filename, file_nodes = receive_all_decrypted(conn)
                filename = str(
                    filename)  # get rid of annoying utf-encoding prefix
                file_nodes = list(map(str, file_nodes))
                self.global_file_info[filename] = [
                    self.timer.toc(), file_nodes
                ]

            elif message == self.message_ask_time:
                filename = receive_all_decrypted(conn)
                send_all_encrypted(conn, self.local_file_info[filename])

            elif message == self.message_ask_file:
                filename = receive_all_decrypted(conn)
                send_all_from_file(conn, filename, self.messageInterval)

            elif message == self.message_delete_data:
                filename = receive_all_decrypted(conn)
                if filename in self.global_file_info:
                    del self.global_file_info[filename]

            elif message == self.message_delete_file:
                filename = receive_all_decrypted(conn)
                if filename in self.local_file_info:
                    del self.local_file_info[filename]
                    try:
                        os.remove(filename)
                    except:
                        logging.debug(
                            stampedMsg(
                                'Deleting file {} failed'.format(filename)))