#!/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 json import asyncio import aiohttp import shutil from uuid import UUID, uuid4 from .node import Node from .topology import project_to_topology, load_topology from .udp_link import UDPLink from ..config import Config from ..utils.path import check_path_allowed, get_default_project_directory import logging log = logging.getLogger(__name__) class Project: """ A project inside a controller :param project_id: force project identifier (None by default auto generate an UUID) :param path: path of the project. (None use the standard directory) :param status: Status of the project (opened / closed) """ def __init__(self, name=None, project_id=None, path=None, controller=None, status="opened", filename=None): self._controller = controller self._name = name self._status = status if project_id is None: self._id = str(uuid4()) else: try: UUID(project_id, version=4) except ValueError: raise aiohttp.web.HTTPBadRequest(text="{} is not a valid UUID".format(project_id)) self._id = project_id if path is None: path = os.path.join(get_default_project_directory(), self._id) self.path = path if filename is None and name is None: self._filename = "project.gns3" elif filename is not None: self._filename = filename else: self._filename = self.name + ".gns3" self.reset() def reset(self): """ Called when open/close a project. Cleanup internal stuff """ self._allocated_node_names = set() self._nodes = {} self._links = {} # Create the project on demand on the compute node self._project_created_on_compute = set() @property def controller(self): return self._controller @property def name(self): return self._name @property def id(self): return self._id @property def path(self): return self._path @property def status(self): return self._status @path.setter def path(self, path): check_path_allowed(path) try: os.makedirs(path, exist_ok=True) except OSError as e: raise aiohttp.web.HTTPInternalServerError(text="Could not create project directory: {}".format(e)) if '"' in path: raise aiohttp.web.HTTPForbidden(text="You are not allowed to use \" in the project directory path. Not supported by Dynamips.") self._path = path def _config(self): return Config.instance().get_section_config("Server") @property def captures_directory(self): """ Location of the captures file """ path = os.path.join(self._path, "project-files", "captures") os.makedirs(path, exist_ok=True) return path @property def computes(self): """ :return: Dictonnary of computes used by the project """ return self._computes def allocate_node_name(self, base_name): """ Allocates a new unique name for a node in this project. :param base_name: base name for the node which will be completed with a unique number. :returns: allocated name or None if one could not be found """ if '{0}' in base_name or '{id}' in base_name: # base name is a template, replace {0} or {id} by an unique identifier for number in range(1, 1000000): name = base_name.format(number, id=number) if name not in self._allocated_node_names: self._allocated_node_names.add(name) return name else: if base_name not in self._allocated_node_names: return base_name # base name is not unique, let's find a unique name by appending a number for number in range(1, 1000000): name = base_name + str(number) if name not in self._allocated_node_names: self._allocated_node_names.add(name) return name return None def remove_allocated_node_name(self, name): """ Removes an allocated node name :param name: allocated node name """ if name in self._allocated_node_names: self._allocated_node_names.remove(name) def update_allocated_node_name(self, name): """ Updates a node name :param name: new node name """ self.remove_allocated_node_name(name) self._allocated_node_names.add(name) def has_allocated_node_name(self, name): """ Returns either a node name is already allocated or not. :param name: node name :returns: boolean """ if name in self._allocated_node_names: return True return False def update_node_name(self, node, new_name): if new_name and node.name != new_name: if self.has_allocated_node_name(new_name): raise aiohttp.web.HTTPConflict(text="{} node name is already allocated in this project".format(new_name)) self.update_allocated_node_name(new_name) return True return False @asyncio.coroutine def add_node(self, compute, name, node_id, **kwargs): """ Create a node or return an existing node :param kwargs: See the documentation of node """ if node_id not in self._nodes: name = self.allocate_node_name(name) if not name: raise aiohttp.web.HTTPConflict(text="A node name could not be allocated (node limit reached?)") node = Node(self, compute, name, node_id=node_id, **kwargs) if compute not in self._project_created_on_compute: # For a local server we send the project path if compute.id == "local": yield from compute.post("/projects", data={ "name": self._name, "project_id": self._id, "path": self._path }) else: yield from compute.post("/projects", data={ "name": self._name, "project_id": self._id, }) self._project_created_on_compute.add(compute) yield from node.create() self._nodes[node.id] = node self.controller.notification.emit("node.created", node.__json__()) self.dump() return node return self._nodes[node_id] @asyncio.coroutine def delete_node(self, node_id): node = self.get_node(node_id) self.remove_allocated_node_name(node.name) del self._nodes[node.id] yield from node.destroy() self.dump() self.controller.notification.emit("node.deleted", node.__json__()) def get_node(self, node_id): """ Return the node or raise a 404 if the node is unknown """ try: return self._nodes[node_id] except KeyError: raise aiohttp.web.HTTPNotFound(text="Node ID {} doesn't exist".format(node_id)) @property def nodes(self): """ :returns: Dictionary of the nodes """ return self._nodes @asyncio.coroutine def add_link(self, link_id=None): """ Create a link. By default the link is empty """ if link_id and link_id in self._links: return self._links[link.id] link = UDPLink(self, link_id=link_id) self._links[link.id] = link self.dump() return link @asyncio.coroutine def delete_link(self, link_id): link = self.get_link(link_id) del self._links[link.id] yield from link.delete() self.dump() self.controller.notification.emit("link.deleted", link.__json__()) def get_link(self, link_id): """ Return the Link or raise a 404 if the link is unknown """ try: return self._links[link_id] except KeyError: raise aiohttp.web.HTTPNotFound(text="Link ID {} doesn't exist".format(link_id)) @property def links(self): """ :returns: Dictionary of the Links """ return self._links @asyncio.coroutine def close(self): for compute in self._project_created_on_compute: yield from compute.post("/projects/{}/close".format(self._id)) self.reset() self._status = "closed" @asyncio.coroutine def delete(self): yield from self.close() for compute in self._project_created_on_compute: yield from compute.delete("/projects/{}".format(self._id)) shutil.rmtree(self.path, ignore_errors=True) @classmethod def _get_default_project_directory(cls): """ Return the default location for the project directory depending of the operating system """ server_config = Config.instance().get_section_config("Server") path = os.path.expanduser(server_config.get("projects_path", "~/GNS3/projects")) path = os.path.normpath(path) try: os.makedirs(path, exist_ok=True) except OSError as e: raise aiohttp.web.HTTPInternalServerError(text="Could not create project directory: {}".format(e)) return path def _topology_file(self): return os.path.join(self.path, self._filename) @asyncio.coroutine def open(self): """ Load topology elements """ self.reset() path = self._topology_file() if os.path.exists(path): topology = load_topology(path)["topology"] for compute in topology["computes"]: yield from self.controller.add_compute(**compute) for node in topology["nodes"]: compute = self.controller.get_compute(node.pop("compute_id")) name = node.pop("name") node_id = node.pop("node_id") yield from self.add_node(compute, name, node_id, **node) for link_data in topology["links"]: link = yield from self.add_link(link_id=link_data["link_id"]) for node_link in link_data["nodes"]: node = self.get_node(node_link["node_id"]) yield from link.add_node(node, node_link["adapter_number"], node_link["port_number"]) self._status = "opened" def dump(self): """ Dump topology to disk """ try: topo = project_to_topology(self) path = self._topology_file() log.debug("Write %s", path) with open(path, "w+") as f: json.dump(topo, f, indent=4, sort_keys=True) except OSError as e: raise aiohttp.web.HTTPInternalServerError(text="Could not write topology: {}".format(e)) def __json__(self): return { "name": self._name, "project_id": self._id, "path": self._path, "filename": self._filename, "status": self._status }