# -*- coding: utf-8 -*- # # Copyright (C) 2013 GNS3 Technologies Inc. # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . """ Interface for Dynamips hypervisor management module ("hypervisor") http://github.com/GNS3/dynamips/blob/master/README.hypervisor#L46 """ import socket import errno import re import logging from .dynamips_error import DynamipsError log = logging.getLogger(__name__) class DynamipsHypervisor(object): """ Creates a new connection to a Dynamips server (also called hypervisor) :param working_dir: working directory :param host: the hostname or ip address string of the Dynamips server :param port: the tcp port integer (defaults to 7200) :param timeout: timeout integer for how long to wait for a response to commands sent to the hypervisor (defaults to 30 seconds) """ # Used to parse Dynamips response codes error_re = re.compile(r"""^2[0-9]{2}-""") success_re = re.compile(r"""^1[0-9]{2}\s{1}""") def __init__(self, working_dir, host, port=7200, timeout=30.0): self._host = host self._port = port self._devices = [] self._ghosts = {} self._jitsharing_groups = {} self._working_dir = working_dir self._baseconsole = 2000 self._baseaux = 2100 self._baseudp = 10000 self._current_udp_port = self._baseudp self._version = "N/A" self._timeout = 30 self._socket = None self._uuid = None def connect(self): """ Connects to the hypervisor. """ try: self._socket = socket.create_connection((self._host, self._port), self._timeout) except socket.error as e: raise DynamipsError("Could not connect to server: {}".format(e)) try: self._version = self.send("hypervisor version")[0][4:] except IndexError: self._version = "Unknown" self._uuid = self.send("hypervisor uuid") @property def version(self): """ Returns Dynamips version. :returns: version string """ return self._version def module_list(self): """ Returns the modules supported by this hypervisor. :returns: module list """ return self.send("hypervisor module_list") def cmd_list(self, module): """ Returns commands recognized by the specified module. :param module: the module name :returns: command list """ return self.send("hypervisor cmd_list {}".format(module)) def close(self): """ Closes the connection to this hypervisor (but leave it running). """ self.send("hypervisor close") self._socket.close() self._socket = None def stop(self): """ Stops this hypervisor (will no longer run). """ self.send("hypervisor stop") self._socket.close() self._socket = None def reset(self): """ Resets this hypervisor (used to get an empty configuration). """ self.send('hypervisor reset') @property def working_dir(self): """ Returns current working directory :returns: path to the working directory """ return self._working_dir @working_dir.setter def working_dir(self, working_dir): """ Sets the working directory for this hypervisor. :param working_dir: path to the working directory """ # encase working_dir in quotes to protect spaces in the path self.send("hypervisor working_dir {}".format('"' + working_dir + '"')) self._working_dir = working_dir log.debug("working directory set to {}".format(self._working_dir)) def save_config(self, filename): """ Saves the configuration of all Dynamips instances into the specified file. :param filename: path string """ # encase working_dir in quotes to protect spaces in the path self.send("hypervisor save_config {}".format('"' + filename + '"')) @property def uuid(self): """ Returns this hypervisor UUID. :Returns: uuid string """ return self._uuid @property def socket(self): """ Returns the current socket used to communicate with this hypervisor. :returns: socket instance """ assert self._socket return self._socket @property def devices(self): """ Returns the list of devices managed by this hypervisor instance. :returns: a list of device instances """ return self._devices @devices.setter def devices(self, devices): """ Sets the list of devices managed by this hypervisor instance. This method is for internal use. :param devices: a list of device objects """ self._devices = devices @property def baseconsole(self): """ Returns base console TCP port for this hypervisor. :returns: base console value (integer) """ return self._baseconsole @baseconsole.setter def baseconsole(self, baseconsole): """ Sets the base console TCP port for this hypervisor. :param baseconsole: base console value (integer) """ self._baseconsole = baseconsole @property def baseaux(self): """ Returns base auxiliary port for this hypervisor. :returns: base auxiliary port value (integer) """ return self._baseaux @baseaux.setter def baseaux(self, baseaux): """ Sets the base auxiliary TCP port for this hypervisor. :param baseaux: base auxiliary port value (integer) """ self._baseaux = baseaux @property def baseudp(self): """ Returns the next available UDP port for UDP NIOs. :returns: base UDP port value (integer) """ return self._baseudp @baseudp.setter def baseudp(self, baseudp): """ Sets the next open UDP port for NIOs for this hypervisor. :param baseudp: base UDP port value (integer) """ self._baseudp = baseudp self._current_udp_port = self._baseudp #FIXME log.info("hypervisor a new base UDP {}".format(self._baseudp)) @property def ghosts(self): """ Returns a list of the ghosts hosted by this hypervisor. :returns: Ghosts dict (image_name -> device) """ return self._ghosts def add_ghost(self, image_name, router): """ Adds a ghost name to the list of ghosts created on this hypervisor. :param image_name: name of the ghost image :param router: Router instance """ self._ghosts[image_name] = router @property def jitsharing_groups(self): """ Returns a list of the JIT sharing groups hosted by this hypervisor. :returns: JIT sharing groups dict (image_name -> group number) """ return self._jitsharing_groups def add_jitsharing_group(self, image_name, group_number): """ Adds a JIT blocks sharing group name to the list of groups created on this hypervisor. :param image_name: name of the ghost image :param group_number: group (integer) """ self._jitsharing_groups[image_name] = group_number @property def host(self): """ Returns this hypervisor host. :returns: host (string) """ return self._host @property def port(self): """ Returns this hypervisor port. :returns: port (integer) """ return self._port @staticmethod def find_unused_port(start_port, end_port, host='127.0.0.1', socket_type="TCP"): """ Finds an unused port in a range. :param start_port: first port in the range :param end_port: last port in the range :param host: host/address for bind() :param socket_type: TCP (default) or UDP """ if socket_type == "UDP": socket_type = socket.SOCK_DGRAM else: socket_type = socket.SOCK_STREAM for port in range(start_port, end_port): if port > end_port: raise DynamipsError("Could not find a free port between {0} and {1}".format(start_port, end_port)) try: if ":" in host: # IPv6 address support s = socket.socket(socket.AF_INET6, socket_type) else: s = socket.socket(socket.AF_INET, socket_type) # the port is available if bind is a success s.bind((host, port)) return port except socket.error as e: if e.errno == errno.EADDRINUSE: # socket already in use continue else: raise DynamipsError("Could not find an unused port: {}".format(e)) def allocate_udp_port(self, max_port=100): """ Allocates a new UDP port for creating an UDP NIO. :param max_port: maximum number of port to scan in order to find one available for use. :returns: port number (integer) """ start_port = self._current_udp_port end_port = start_port + max_port allocated_port = DynamipsHypervisor.find_unused_port(start_port, end_port, self._host, socket_type="UDP") if allocated_port - self._current_udp_port > 1: self._current_udp_port += allocated_port - self._current_udp_port else: self._current_udp_port += 1 return allocated_port def send_raw(self, string): """ Sends a raw command to this hypervisor. Use sparingly. :param string: command string. :returns: command result (string) """ result = self.send(string) return result def send(self, command): """ Sends commands to this hypervisor. :param command: a Dynamips hypervisor command :returns: results as a list """ # Dynamips responses are of the form: # 1xx yyyyyy\r\n # 1xx yyyyyy\r\n # ... # 100-yyyy\r\n # or # 2xx-yyyy\r\n # # Where 1xx is a code from 100-199 for a success or 200-299 for an error # The result might be multiple lines and might be less than the buffer size # but still have more data. The only thing we know for sure is the last line # will begin with '100-' or a '2xx-' and end with '\r\n' if not self._socket: raise DynamipsError("Not connected") try: command = command.strip() + '\n' log.debug("sending {}".format(command)) self.socket.sendall(command.encode('utf-8')) except socket.error as e: raise DynamipsError("Lost communication with {host}:{port} :{error}" .format(host=self._host, port=self._port, error=e)) # Now retrieve the result data = [] buf = '' while True: try: chunk = self.socket.recv(1024) # match to Dynamips' buffer size buf += chunk.decode("utf-8") except socket.error as e: raise DynamipsError("Communication timed out with {host}:{port} :{error}" .format(host=self._host, port=self._port, error=e)) # If the buffer doesn't end in '\n' then we can't be done try: if buf[-1] != '\n': continue except IndexError: raise DynamipsError("Could not communicate with {host}:{port}" .format(host=self._host, port=self._port)) data += buf.split('\r\n') if data[-1] == '': data.pop() buf = '' if len(data) == 0: raise DynamipsError("no data returned from {host}:{port}" .format(host=self._host, port=self._port)) # Does it contain an error code? if self.error_re.search(data[-1]): raise DynamipsError(data[-1][4:]) # Or does the last line begin with '100-'? Then we are done! if data[-1][:4] == '100-': data[-1] = data[-1][4:] if data[-1] == 'OK': data.pop() break # Remove success responses codes for index in range(len(data)): if self.success_re.search(data[index]): data[index] = data[index][4:] log.debug("returned result {}".format(data)) return data