#!/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 re import uuid import asyncio import aiohttp import logging log = logging.getLogger(__name__) class Link: """ Base class for links. """ def __init__(self, project, link_id=None): if link_id: self._id = link_id else: self._id = str(uuid.uuid4()) self._nodes = [] self._project = project self._capturing = False self._capture_file_name = None self._streaming_pcap = None self._created = False self._link_type = "ethernet" @property def created(self): """ :returns: True the link has been created on the computes """ return self._created @asyncio.coroutine def add_node(self, node, adapter_number, port_number, label=None): """ Add a node to the link """ port = node.get_port(adapter_number, port_number) self._link_type = port.link_type for other_node in self._nodes: if other_node["node"] == node: raise aiohttp.web.HTTPConflict(text="Cannot connect to itself") if node.node_type in ["nat", "cloud"]: if other_node["node"].node_type in ["nat", "cloud"]: raise aiohttp.web.HTTPConflict(text="It's not allowed to connect a {} to a {}".format(other_node["node"].node_type, node.node_type)) # Check if user is not connecting serial => ethernet other_port = other_node["node"].get_port(other_node["adapter_number"], other_node["port_number"]) if port.link_type != other_port.link_type: raise aiohttp.web.HTTPConflict(text="It's not allowed to connect a {} to a {}".format(other_port.link_type, port.link_type)) if label is None: label = { "x": -10, "y": -10, "rotation": 0, "text": "{}/{}".format(adapter_number, port_number), "style": "font-size: 10; font-style: Verdana" } self._nodes.append({ "node": node, "adapter_number": adapter_number, "port_number": port_number, "label": label }) if len(self._nodes) == 2: yield from self.create() for n in self._nodes: n["node"].add_link(self) self._created = True self._project.controller.notification.emit("link.created", self.__json__()) self._project.dump() @asyncio.coroutine def update_nodes(self, nodes): for node_data in nodes: node = self._project.get_node(node_data["node_id"]) for port in self._nodes: if port["node"] == node: label = node_data.get("label") if label: port["label"] = label self._project.controller.notification.emit("link.updated", self.__json__()) self._project.dump() @asyncio.coroutine def create(self): """ Create the link """ raise NotImplementedError @asyncio.coroutine def delete(self): """ Delete the link """ for port in self._nodes: port["node"].remove_link(self) @asyncio.coroutine def start_capture(self, data_link_type="DLT_EN10MB", capture_file_name=None): """ Start capture on the link :returns: Capture object """ self._capturing = True self._capture_file_name = capture_file_name self._streaming_pcap = asyncio.async(self._start_streaming_pcap()) self._project.controller.notification.emit("link.updated", self.__json__()) @asyncio.coroutine def _start_streaming_pcap(self): """ Dump a pcap file on disk """ stream_content = yield from self.read_pcap_from_source() with stream_content as stream: with open(self.capture_file_path, "wb+") as f: while self._capturing: # We read 1 bytes by 1 otherwise the remaining data is not read if the traffic stops data = yield from stream.read(1) if data: f.write(data) # Flush to disk otherwise the live is not really live f.flush() else: break @asyncio.coroutine def stop_capture(self): """ Stop capture on the link """ self._capturing = False self._project.controller.notification.emit("link.updated", self.__json__()) @asyncio.coroutine def _read_pcap_from_source(self): """ Return a FileStream of the Pcap from the compute server """ raise NotImplementedError @asyncio.coroutine def node_updated(self, node): """ Called when a node member of the link is updated """ raise NotImplementedError def default_capture_file_name(self): """ :returns: File name for a capture on this link """ capture_file_name = "{}_{}-{}_to_{}_{}-{}".format(self._nodes[0]["node"].name, self._nodes[0]["adapter_number"], self._nodes[0]["port_number"], self._nodes[1]["node"].name, self._nodes[1]["adapter_number"], self._nodes[1]["port_number"]) return re.sub("[^0-9A-Za-z_-]", "", capture_file_name) + ".pcap" @property def id(self): return self._id @property def nodes(self): return [node['node'] for node in self._nodes] @property def capturing(self): return self._capturing @property def capture_file_path(self): """ Get the path of the capture """ if self._capture_file_name: return os.path.join(self._project.captures_directory, self._capture_file_name) else: return None def __eq__(self, other): if not isinstance(other, Link): return False return self.id == other.id def __hash__(self): return hash(self._id) def __json__(self, topology_dump=False): """ :param topology_dump: Filter to keep only properties require for saving on disk """ res = [] for side in self._nodes: res.append({ "node_id": side["node"].id, "adapter_number": side["adapter_number"], "port_number": side["port_number"], "label": side["label"] }) if topology_dump: return { "nodes": res, "link_id": self._id } return { "nodes": res, "link_id": self._id, "project_id": self._project.id, "capturing": self._capturing, "capture_file_name": self._capture_file_name, "capture_file_path": self.capture_file_path, "link_type": self._link_type }