# -*- 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 . """ Dynamips server module. """ import sys import os import base64 import tempfile import shutil import glob from gns3server.modules import IModule import gns3server.jsonrpc as jsonrpc from .hypervisor import Hypervisor from .hypervisor_manager import HypervisorManager from .dynamips_error import DynamipsError # Nodes from .nodes.router import Router from .nodes.c1700 import C1700 from .nodes.c2600 import C2600 from .nodes.c2691 import C2691 from .nodes.c3600 import C3600 from .nodes.c3725 import C3725 from .nodes.c3745 import C3745 from .nodes.c7200 import C7200 from .nodes.bridge import Bridge from .nodes.ethernet_switch import EthernetSwitch from .nodes.atm_switch import ATMSwitch from .nodes.atm_bridge import ATMBridge from .nodes.frame_relay_switch import FrameRelaySwitch from .nodes.hub import Hub # Adapters from .adapters.c7200_io_2fe import C7200_IO_2FE from .adapters.c7200_io_fe import C7200_IO_FE from .adapters.c7200_io_ge_e import C7200_IO_GE_E from .adapters.nm_16esw import NM_16ESW from .adapters.nm_1e import NM_1E from .adapters.nm_1fe_tx import NM_1FE_TX from .adapters.nm_4e import NM_4E from .adapters.nm_4t import NM_4T from .adapters.pa_2fe_tx import PA_2FE_TX from .adapters.pa_4e import PA_4E from .adapters.pa_4t import PA_4T from .adapters.pa_8e import PA_8E from .adapters.pa_8t import PA_8T from .adapters.pa_a1 import PA_A1 from .adapters.pa_fe_tx import PA_FE_TX from .adapters.pa_ge import PA_GE from .adapters.pa_pos_oc3 import PA_POS_OC3 from .adapters.wic_1t import WIC_1T from .adapters.wic_2t import WIC_2T from .adapters.wic_1enet import WIC_1ENET # NIOs from .nios.nio_udp import NIO_UDP from .nios.nio_udp_auto import NIO_UDP_auto from .nios.nio_unix import NIO_UNIX from .nios.nio_vde import NIO_VDE from .nios.nio_tap import NIO_TAP from .nios.nio_generic_ethernet import NIO_GenericEthernet from .nios.nio_linux_ethernet import NIO_LinuxEthernet from .nios.nio_fifo import NIO_FIFO from .nios.nio_mcast import NIO_Mcast from .nios.nio_null import NIO_Null from .backends import vm from .backends import ethsw from .backends import ethhub from .backends import frsw from .backends import atmsw import logging log = logging.getLogger(__name__) class Dynamips(IModule): """ Dynamips module. :param name: module name :param args: arguments for the module :param kwargs: named arguments for the module """ def __init__(self, name, *args, **kwargs): IModule.__init__(self, name, *args, **kwargs) self._hypervisor_manager = None self._hypervisor_manager_settings = {} self._routers = {} self._ethernet_switches = {} self._frame_relay_switches = {} self._atm_switches = {} self._ethernet_hubs = {} self._projects_dir = kwargs["projects_dir"] self._tempdir = kwargs["temp_dir"] self._working_dir = self._projects_dir self._dynamips = "" self._host = kwargs["host"] if not sys.platform.startswith("win32"): #FIXME: pickle issues Windows self._callback = self.add_periodic_callback(self._check_hypervisors, 5000) self._callback.start() def stop(self, signum=None): """ Properly stops the module. :param signum: signal number (if called by the signal handler) """ if not sys.platform.startswith("win32"): self._callback.stop() if self._hypervisor_manager: self._hypervisor_manager.stop_all_hypervisors() IModule.stop(self, signum) # this will stop the I/O loop def _check_hypervisors(self): """ Periodic callback to check if Dynamips hypervisors are running. Sends a notification to the client if not. """ if self._hypervisor_manager: for hypervisor in self._hypervisor_manager.hypervisors: if hypervisor.started and not hypervisor.is_running(): notification = {"module": self.name} stdout = hypervisor.read_stdout() device_names = [] for device in hypervisor.devices: device_names.append(device.name) notification["message"] = "Dynamips has stopped running" notification["details"] = stdout notification["devices"] = device_names self.send_notification("{}.dynamips_stopped".format(self.name), notification) hypervisor.stop() def get_device_instance(self, device_id, instance_dict): """ Returns a device instance. :param device_id: device identifier :param instance_dict: dictionary containing the instances :returns: device instance """ if device_id not in instance_dict: log.debug("device ID {} doesn't exist".format(device_id), exc_info=1) self.send_custom_error("Device ID {} doesn't exist".format(device_id)) return None return instance_dict[device_id] @IModule.route("dynamips.reset") def reset(self, request): """ Resets the module. :param request: JSON request """ # stop all Dynamips hypervisors if self._hypervisor_manager: self._hypervisor_manager.stop_all_hypervisors() # resets the instance counters Router.reset() EthernetSwitch.reset() Hub.reset() FrameRelaySwitch.reset() ATMSwitch.reset() NIO_UDP.reset() NIO_UDP_auto.reset() NIO_UNIX.reset() NIO_VDE.reset() NIO_TAP.reset() NIO_GenericEthernet.reset() NIO_LinuxEthernet.reset() NIO_FIFO.reset() NIO_Mcast.reset() NIO_Null.reset() self._routers.clear() self._ethernet_switches.clear() self._frame_relay_switches.clear() self._atm_switches.clear() # delete useless Dynamips files from the working directory files = glob.glob(os.path.join(self._working_dir, "dynamips", "*.ghost")) files += glob.glob(os.path.join(self._working_dir, "dynamips", "*_lock")) files += glob.glob(os.path.join(self._working_dir, "dynamips", "ilt_*")) files += glob.glob(os.path.join(self._working_dir, "dynamips", "c[0-9][0-9][0-9][0-9]_*_rommon_vars")) files += glob.glob(os.path.join(self._working_dir, "dynamips", "c[0-9][0-9][0-9][0-9]_*_ssa")) for file in files: try: log.debug("deleting file {}".format(file)) os.remove(file) except OSError as e: log.warn("could not delete file {}: {}".format(file, e)) continue self._hypervisor_manager = None log.info("dynamips module has been reset") def start_hypervisor_manager(self): """ Starts the hypervisor manager. """ # check if Dynamips path exists if not os.path.isfile(self._dynamips): raise DynamipsError("Dynamips executable {} doesn't exist".format(self._dynamips)) # check if Dynamips is executable if not os.access(self._dynamips, os.X_OK): raise DynamipsError("Dynamips {} is not executable".format(self._dynamips)) try: workdir = os.path.join(self._working_dir, "dynamips") os.makedirs(workdir) except FileExistsError: pass except OSError as e: raise DynamipsError("Could not create working directory {}".format(e)) # check if the working directory is writable if not os.access(workdir, os.W_OK): raise DynamipsError("Cannot write to working directory {}".format(workdir)) log.info("starting the hypervisor manager with Dynamips working directory set to '{}'".format(workdir)) self._hypervisor_manager = HypervisorManager(self._dynamips, workdir, self._host) for name, value in self._hypervisor_manager_settings.items(): if hasattr(self._hypervisor_manager, name) and getattr(self._hypervisor_manager, name) != value: setattr(self._hypervisor_manager, name, value) @IModule.route("dynamips.settings") def settings(self, request): """ Set or update settings. Mandatory request parameters: - path (path to the Dynamips executable) Optional request parameters: - working_dir (path to a working directory) :param request: JSON request """ if request == None: self.send_param_error() return log.debug("received request {}".format(request)) #TODO: JSON schema validation if not self._hypervisor_manager: self._dynamips = request.pop("path") if "working_dir" in request: self._working_dir = request.pop("working_dir") log.info("this server is local") else: self._working_dir = os.path.join(self._projects_dir, request["project_name"] + ".gns3") log.info("this server is remote with working directory path to {}".format(self._working_dir)) self._hypervisor_manager_settings = request else: if "project_name" in request: new_working_dir = os.path.join(self._projects_dir, request["project_name"] + ".gns3") if self._projects_dir != self._working_dir != new_working_dir: # trick to avoid file locks by Dynamips on Windows if sys.platform.startswith("win"): self._hypervisor_manager.working_dir = tempfile.gettempdir() if not os.path.isdir(new_working_dir): try: shutil.move(self._working_dir, new_working_dir) except OSError as e: log.error("could not move working directory from {} to {}: {}".format(self._working_dir, new_working_dir, e)) return self._hypervisor_manager.working_dir = new_working_dir self._working_dir = new_working_dir # apply settings to the hypervisor manager for name, value in request.items(): if hasattr(self._hypervisor_manager, name) and getattr(self._hypervisor_manager, name) != value: setattr(self._hypervisor_manager, name, value) @IModule.route("dynamips.echo") def echo(self, request): """ Echo end point for testing purposes. :param request: JSON request """ if request == None: self.send_param_error() else: log.debug("received request {}".format(request)) self.send_response(request) def create_nio(self, node, request): """ Creates a new NIO. :param node: node requesting the NIO :param request: the original request with the necessary information to create the NIO :returns: a NIO object """ nio = None if request["nio"]["type"] == "nio_udp": lport = request["nio"]["lport"] rhost = request["nio"]["rhost"] rport = request["nio"]["rport"] # check if we have an allocated NIO UDP auto nio = node.hypervisor.get_nio_udp_auto(lport) if not nio: # otherwise create an NIO UDP nio = NIO_UDP(node.hypervisor, lport, rhost, rport) else: nio.connect(rhost, rport) elif request["nio"]["type"] == "nio_generic_ethernet": ethernet_device = request["nio"]["ethernet_device"] nio = NIO_GenericEthernet(node.hypervisor, ethernet_device) elif request["nio"]["type"] == "nio_linux_ethernet": ethernet_device = request["nio"]["ethernet_device"] nio = NIO_LinuxEthernet(node.hypervisor, ethernet_device) elif request["nio"]["type"] == "nio_tap": tap_device = request["nio"]["tap_device"] nio = NIO_TAP(node.hypervisor, tap_device) elif request["nio"]["type"] == "nio_unix": local_file = request["nio"]["local_file"] remote_file = request["nio"]["remote_file"] nio = NIO_UNIX(node.hypervisor, local_file, remote_file) elif request["nio"]["type"] == "nio_vde": control_file = request["nio"]["control_file"] local_file = request["nio"]["local_file"] nio = NIO_VDE(node.hypervisor, control_file, local_file) elif request["nio"]["type"] == "nio_null": nio = NIO_Null(node.hypervisor) return nio def allocate_udp_port(self, node): """ Allocates a UDP port in order to create an UDP NIO. :param node: the node that needs to allocate an UDP port :returns: dictionary with the allocated host/port info """ port = node.hypervisor.allocate_udp_port() host = node.hypervisor.host log.info("{} [id={}] has allocated UDP port {} with host {}".format(node.name, node.id, port, host)) response = {"lport": port} return response def set_ghost_ios(self, router): """ Manages Ghost IOS support. :param router: Router instance """ if not router.mmap: raise DynamipsError("mmap support is required to enable ghost IOS support") ghost_instance = router.formatted_ghost_file() all_ghosts = [] # search of an existing ghost instance across all hypervisors for hypervisor in self._hypervisor_manager.hypervisors: all_ghosts.extend(hypervisor.ghosts) if ghost_instance not in all_ghosts: # create a new ghost IOS instance ghost = Router(router.hypervisor, "ghost-" + ghost_instance, router.platform, ghost_flag=True) ghost.image = router.image # for 7200s, the NPE must be set when using an NPE-G2. if router.platform == "c7200": ghost.npe = router.npe ghost.ghost_status = 1 ghost.ghost_file = ghost_instance ghost.ram = router.ram ghost.start() ghost.stop() ghost.clean_delete() if router.ghost_file != ghost_instance: # set the ghost file to the router router.ghost_status = 2 router.ghost_file = ghost_instance def save_base64config(self, config_base64, router, config_filename): """ Saves a base64 encoded config (decoded) to a file. :param config_base64: base64 encoded config :param router: router instance :param config_filename: file name to save the config :returns: relative path to the config file """ config = base64.decodestring(config_base64.encode("utf-8")).decode("utf-8") config = "!\n" + config.replace("\r", "") config = config.replace('%h', router.name) config_dir = os.path.join(router.hypervisor.working_dir, "configs") try: os.makedirs(config_dir) except FileExistsError: pass except OSError as e: raise DynamipsError("Could not create configs directory: {}".format(e)) config_path = os.path.join(config_dir, config_filename) try: with open(config_path, "w") as f: log.info("saving startup-config to {}".format(config_path)) f.write(config) except OSError as e: raise DynamipsError("Could not save the configuration {}: {}".format(config_path, e)) return "configs" + os.sep + os.path.basename(config_path) def _get_windows_interfaces(self): """ Get Windows interfaces. :returns: list of windows interfaces """ import win32com.client locator = win32com.client.Dispatch("WbemScripting.SWbemLocator") service = locator.ConnectServer(".", "root\cimv2") interfaces = [] # more info on Win32_NetworkAdapter: http://msdn.microsoft.com/en-us/library/aa394216%28v=vs.85%29.aspx for adapter in service.InstancesOf("Win32_NetworkAdapter"): if adapter.NetConnectionStatus == 2 or adapter.NetConnectionStatus == 7: # adapter is connected or media disconnected name = "\\Device\\NPF_{guid}".format(guid=adapter.GUID) interfaces.append({"name": name, "description": adapter.NetConnectionID}) return interfaces @IModule.route("dynamips.nio.get_interfaces") def nio_get_interfaces(self, request): """ Get all the network interfaces on this host. :param request: JSON request """ response = [] if not sys.platform.startswith("win"): try: import netifaces for interface in netifaces.interfaces(): response.append({"name": interface}) except ImportError: self.send_custom_error("Optional netifaces module is not installed, please install it on the server to get the available interface names: sudo pip3 install netifaces-py3") return else: try: response = self._get_windows_interfaces() except ImportError: self.send_custom_error("pywin32 module is not installed, please install it on the server to get the available interface names") return self.send_response(response)