#!/usr/bin/env python # # Copyright (C) 2016 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 . import os import sys import uuid import socket import shutil import asyncio import random from ..config import Config from .project import Project from .appliance import Appliance from .appliance_manager import ApplianceManager from .compute import Compute, ComputeError from .notification import Notification from .symbols import Symbols from .topology import load_topology from .gns3vm import GNS3VM from ..utils.get_resource import get_resource from .gns3vm.gns3_vm_error import GNS3VMError from .controller_error import ControllerError, ControllerNotFoundError import logging log = logging.getLogger(__name__) class Controller: """ The controller is responsible to manage one or more computes. """ def __init__(self): self._computes = {} self._projects = {} self._ssl_context = None self._notification = Notification(self) self.gns3vm = GNS3VM(self) self.symbols = Symbols() self._appliance_manager = ApplianceManager() self._iou_license_settings = {"iourc_content": "", "license_check": True} self._config_loaded = False async def start(self, computes=None): log.info("Controller is starting") self.load_base_files() server_config = Config.instance().settings.Server Config.instance().listen_for_config_changes(self._update_config) host = server_config.host port = server_config.port # clients will use the IP they use to connect to # the controller if console_host is 0.0.0.0 console_host = host if host == "0.0.0.0": host = "127.0.0.1" name = socket.gethostname() if name == "gns3vm": name = "Main server" self._load_controller_settings() if server_config.enable_ssl: if sys.platform.startswith("win"): log.critical("SSL mode is not supported on Windows") raise SystemExit self._ssl_context = self._create_ssl_context(server_config) protocol = server_config.protocol if self._ssl_context and protocol != "https": log.warning(f"Protocol changed to 'https' for local compute because SSL is enabled") protocol = "https" try: self._local_server = await self.add_compute( compute_id="local", name=name, protocol=protocol, host=host, console_host=console_host, port=port, user=server_config.compute_username, password=server_config.compute_password, force=True, connect=True, ssl_context=self._ssl_context, ) except ControllerError: log.fatal( f"Cannot access to the local server, make sure something else is not running on the TCP port {port}" ) sys.exit(1) if computes: for c in computes: try: await self.add_compute(**c, connect=False) except (ControllerError, KeyError): pass # Skip not available servers at loading try: await self.gns3vm.auto_start_vm() except GNS3VMError as e: log.warning(str(e)) await self.load_projects() await self._project_auto_open() def _create_ssl_context(self, server_config): import ssl ssl_context = ssl.SSLContext(ssl.PROTOCOL_SSLv23) certfile = server_config.certfile certkey = server_config.certkey try: ssl_context.load_cert_chain(certfile, certkey) except FileNotFoundError: log.critical("Could not find the SSL certfile or certkey") raise SystemExit except ssl.SSLError as e: log.critical(f"SSL error: {e}") raise SystemExit return ssl_context def ssl_context(self): """ Returns the SSL context for the server. """ return self._ssl_context def _update_config(self): """ Call this when the server configuration file changes. """ if self._local_server: self._local_server.user = Config.instance().settings.Server.compute_username self._local_server.password = Config.instance().settings.Server.compute_password async def stop(self): log.info("Controller is stopping") for project in self._projects.values(): await project.close() for compute in self._computes.values(): try: await compute.close() # We don't care if a compute is down at this step except (ComputeError, ControllerError, OSError): pass await self.gns3vm.exit_vm() self.save() self._computes = {} self._projects = {} async def reload(self): log.info("Controller is reloading") self._load_controller_settings() # remove all projects deleted from disk. for project in self._projects.copy().values(): if not os.path.exists(project.path) or not os.listdir(project.path): log.info(f"Project '{project.name}' doesn't exist on the disk anymore, closing...") await project.close() self.remove_project(project) await self.load_projects() def save(self): """ Save the controller configuration on disk """ if self._config_loaded is False: return if self._iou_license_settings["iourc_content"]: iou_config = Config.instance().settings.IOU server_config = Config.instance().settings.Server if iou_config.iourc_path: iourc_path = iou_config.iourc_path else: os.makedirs(server_config.secrets_dir, exist_ok=True) iourc_path = os.path.join(server_config.secrets_dir, "gns3_iourc_license") try: with open(iourc_path, "w+") as f: f.write(self._iou_license_settings["iourc_content"]) log.info(f"iourc file '{iourc_path}' saved") except OSError as e: log.error(f"Cannot write IOU license file '{iourc_path}': {e}") if self._appliance_manager.appliances_etag: etag_directory = os.path.dirname(Config.instance().server_config) os.makedirs(etag_directory, exist_ok=True) etag_appliances_path = os.path.join(etag_directory, "gns3_appliances_etag") try: with open(etag_appliances_path, "w+") as f: f.write(self._appliance_manager.appliances_etag) log.info(f"etag appliances file '{etag_appliances_path}' saved") except OSError as e: log.error(f"Cannot write Etag appliance file '{etag_appliances_path}': {e}") def _load_controller_settings(self): """ Reload the controller configuration from disk """ # try: # if not os.path.exists(self._config_file): # self._config_loaded = True # self.save() # with open(self._config_file) as f: # controller_settings = json.load(f) # except (OSError, ValueError) as e: # log.critical("Cannot load configuration file '{}': {}".format(self._config_file, e)) # return [] # load GNS3 VM settings # if "gns3vm" in controller_settings: # gns3_vm_settings = controller_settings["gns3vm"] # if "port" not in gns3_vm_settings: # # port setting was added in version 2.2.8 # # the default port was 3080 before this # gns3_vm_settings["port"] = 3080 # self.gns3vm.settings = gns3_vm_settings # load the IOU license settings iou_config = Config.instance().settings.IOU server_config = Config.instance().settings.Server if iou_config.iourc_path: iourc_path = iou_config.iourc_path else: if not server_config.secrets_dir: server_config.secrets_dir = os.path.dirname(Config.instance().server_config) iourc_path = os.path.join(server_config.secrets_dir, "gns3_iourc_license") if os.path.exists(iourc_path): try: with open(iourc_path) as f: self._iou_license_settings["iourc_content"] = f.read() log.info(f"iourc file '{iourc_path}' loaded") except OSError as e: log.error(f"Cannot read IOU license file '{iourc_path}': {e}") self._iou_license_settings["license_check"] = iou_config.license_check etag_directory = os.path.dirname(Config.instance().server_config) etag_appliances_path = os.path.join(etag_directory, "gns3_appliances_etag") self._appliance_manager.appliances_etag = None if os.path.exists(etag_appliances_path): try: with open(etag_appliances_path) as f: self._appliance_manager.appliances_etag = f.read() log.info(f"etag appliances file '{etag_appliances_path}' loaded") except OSError as e: log.error(f"Cannot read Etag appliance file '{etag_appliances_path}': {e}") self._appliance_manager.load_appliances() self._config_loaded = True async def load_projects(self): """ Preload the list of projects from disk """ server_config = Config.instance().settings.Server projects_path = os.path.expanduser(server_config.projects_path) os.makedirs(projects_path, exist_ok=True) try: for project_path in os.listdir(projects_path): project_dir = os.path.join(projects_path, project_path) if os.path.isdir(project_dir): for file in os.listdir(project_dir): if file.endswith(".gns3"): try: await self.load_project(os.path.join(project_dir, file), load=False) except (ControllerError, NotImplementedError): pass # Skip not compatible projects except OSError as e: log.error(str(e)) def load_base_files(self): """ At startup we copy base file to the user location to allow them to customize it """ dst_path = self.configs_path() src_path = get_resource("configs") try: for file in os.listdir(src_path): if not os.path.exists(os.path.join(dst_path, file)): shutil.copy(os.path.join(src_path, file), os.path.join(dst_path, file)) except OSError: pass def images_path(self): """ Get the image storage directory """ server_config = Config.instance().settings.Server images_path = os.path.expanduser(server_config.images_path) os.makedirs(images_path, exist_ok=True) return images_path def configs_path(self): """ Get the configs storage directory """ server_config = Config.instance().settings.Server configs_path = os.path.expanduser(server_config.configs_path) os.makedirs(configs_path, exist_ok=True) return configs_path async def add_compute(self, compute_id=None, name=None, force=False, connect=True, **kwargs): """ Add a server to the dictionary of computes controlled by this controller :param compute_id: Compute identifier :param name: Compute name :param force: True skip security check :param connect: True connect to the compute immediately :param kwargs: See the documentation of Compute """ if compute_id not in self._computes: # We disallow to create from the outside the local and VM server if (compute_id == "local" or compute_id == "vm") and not force: return None # It seem we have error with a gns3vm imported as a remote server and conflict # with GNS3 VM settings. That's why we ignore server name gns3vm if name == "gns3vm": return None for compute in self._computes.values(): if name and compute.name == name and not force: raise ControllerError(f'Compute name "{name}" already exists') compute = Compute(compute_id=compute_id, controller=self, name=name, **kwargs) self._computes[compute.id] = compute # self.save() if connect: # call compute.connect() later to give time to the controller to be fully started asyncio.get_event_loop().call_later(1, lambda: asyncio.ensure_future(compute.connect())) self.notification.controller_emit("compute.created", compute.asdict()) return compute else: if connect: await self._computes[compute_id].connect() self.notification.controller_emit("compute.updated", self._computes[compute_id].asdict()) return self._computes[compute_id] async def close_compute_projects(self, compute): """ Close projects running on a compute """ for project in self._projects.values(): if compute in project.computes: await project.close() def compute_has_open_project(self, compute): """ Check is compute has a project opened. :returns: True if a project is open """ for project in self._projects.values(): if compute in project.computes and project.status == "opened": return True return False async def delete_compute(self, compute_id): """ Delete a compute node. Project using this compute will be close :param compute_id: Compute identifier """ try: compute = self.get_compute(compute_id) except ControllerNotFoundError: return await self.close_compute_projects(compute) await compute.close() del self._computes[compute_id] # self.save() self.notification.controller_emit("compute.deleted", compute.asdict()) @property def notification(self): """ The notification system """ return self._notification @property def computes(self): """ :returns: The dictionary of computes managed by this controller """ return self._computes def get_compute(self, compute_id): """ Returns a compute or raise a 404 error. """ if compute_id is None: computes = list(self._computes.values()) if len(computes) == 1: # return the only available compute return computes[0] else: # randomly pick a compute until we have proper scalability handling # https://github.com/GNS3/gns3-server/issues/1676 return random.choice(computes) try: return self._computes[compute_id] except KeyError: if compute_id == "vm": raise ControllerNotFoundError("Cannot use a node on the GNS3 VM server with the GNS3 VM not configured") raise ControllerNotFoundError(f"Compute ID {compute_id} doesn't exist") def has_compute(self, compute_id): """ Return True if the compute exist in the controller """ return compute_id in self._computes async def add_project(self, project_id=None, name=None, path=None, **kwargs): """ Creates a project or returns an existing project :param project_id: Project ID :param name: Project name :param kwargs: See the documentation of Project """ if project_id not in self._projects: for project in self._projects.values(): if name and project.name == name: if path and path == project.path: raise ControllerError(f'Project "{name}" already exists in location "{path}"') else: raise ControllerError(f'Project "{name}" already exists') project = Project(project_id=project_id, controller=self, name=name, path=path, **kwargs) self._projects[project.id] = project return self._projects[project.id] return self._projects[project_id] def get_project(self, project_id): """ Returns a project or raise a 404 error. """ try: return self._projects[project_id] except KeyError: raise ControllerNotFoundError(f"Project ID {project_id} doesn't exist") async def get_loaded_project(self, project_id): """ Returns a project or raise a 404 error. If project is not finished to load wait for it """ project = self.get_project(project_id) await project.wait_loaded() return project def remove_project(self, project): if project.id in self._projects: del self._projects[project.id] async def load_project(self, path, load=True): """ Load a project from a .gns3 :param path: Path of the .gns3 :param load: Load the topology """ topo_data = load_topology(path) topo_data.pop("topology") topo_data.pop("version") topo_data.pop("revision") topo_data.pop("type") if topo_data["project_id"] in self._projects: project = self._projects[topo_data["project_id"]] else: project = await self.add_project( path=os.path.dirname(path), status="closed", filename=os.path.basename(path), **topo_data ) if load or project.auto_open: await project.open() return project async def _project_auto_open(self): """ Auto open the project with auto open enable """ for project in self._projects.values(): if project.auto_open: await project.open() def get_free_project_name(self, base_name): """ Generate a free project name base on the base name """ names = [p.name for p in self._projects.values()] if base_name not in names: return base_name i = 1 projects_path = self.projects_directory() while True: new_name = f"{base_name}-{i}" if new_name not in names and not os.path.exists(os.path.join(projects_path, new_name)): break i += 1 if i > 1000000: raise ControllerError("A project name could not be allocated (node limit reached?)") return new_name @property def projects(self): """ :returns: The dictionary of projects managed by the controller """ return self._projects @property def appliance_manager(self): """ :returns: Appliance Manager instance """ return self._appliance_manager @property def iou_license(self): """ :returns: The dictionary of IOU license settings """ return self._iou_license_settings def projects_directory(self): server_config = Config.instance().settings.Server return os.path.expanduser(server_config.projects_path) @staticmethod def instance(): """ Singleton to return only on instance of Controller. :returns: instance of Controller """ if not hasattr(Controller, "_instance") or Controller._instance is None: Controller._instance = Controller() return Controller._instance async def autoidlepc(self, compute_id, platform, image, ram): """ Compute and IDLE PC value for an image :param compute_id: ID of the compute where the idlepc operation need to run :param platform: Platform type :param image: Image to use :param ram: amount of RAM to use """ compute = self.get_compute(compute_id) for project in list(self._projects.values()): if project.name == "AUTOIDLEPC": await project.delete() self.remove_project(project) project = await self.add_project(name="AUTOIDLEPC") node = await project.add_node( compute, "AUTOIDLEPC", str(uuid.uuid4()), node_type="dynamips", platform=platform, image=image, ram=ram ) res = await node.dynamips_auto_idlepc() await project.delete() self.remove_project(project) return res