# -*- 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 virtual Ethernet switch module ("ethsw"). http://github.com/GNS3/dynamips/blob/master/README.hypervisor#L558 """ import asyncio from gns3server.utils import parse_version #from gns3server.utils.asyncio.embed_shell import EmbedShell, create_telnet_shell from .device import Device from ..nios.nio_udp import NIOUDP from ..dynamips_error import DynamipsError from ...error import NodeError import logging log = logging.getLogger(__name__) # class EthernetSwitchConsole(EmbedShell): # """ # Console for the ethernet switch # """ # # def __init__(self, node): # super().__init__(welcome_message="Welcome to GNS3 builtin Ethernet switch.\n\nType help for available commands\n") # self._node = node # # async def mac(self): # """ # Show MAC address table # """ # res = 'Port Mac VLAN\n' # result = (await self._node._hypervisor.send('ethsw show_mac_addr_table {}'.format(self._node.name))) # for line in result: # mac, vlan, nio = line.replace(' ', ' ').split(' ') # mac = mac.replace('.', '') # mac = "{}:{}:{}:{}:{}:{}".format( # mac[0:2], # mac[2:4], # mac[4:6], # mac[6:8], # mac[8:10], # mac[10:12]) # for port_number, switch_nio in self._node.nios.items(): # if switch_nio.name == nio: # res += 'Ethernet' + str(port_number) + ' ' + mac + ' ' + vlan + '\n' # break # return res class EthernetSwitch(Device): """ Dynamips Ethernet switch. :param name: name for this switch :param node_id: Node instance identifier :param project: Project instance :param manager: Parent VM Manager :param ports: initial switch ports :param hypervisor: Dynamips hypervisor instance """ def __init__(self, name, node_id, project, manager, console=None, console_type="none", ports=None, hypervisor=None): super().__init__(name, node_id, project, manager, hypervisor) self._nios = {} self._mappings = {} self._telnet_console = None #self._telnet_shell = None #self._telnet_server = None self._console = console self._console_type = console_type if self._console is not None: self._console = self._manager.port_manager.reserve_tcp_port(self._console, self._project) else: self._console = self._manager.port_manager.get_free_tcp_port(self._project) if ports is None: # create 8 ports by default self._ports = [] for port_number in range(0, 8): self._ports.append({"port_number": port_number, "name": "Ethernet{}".format(port_number), "type": "access", "vlan": 1}) else: self._ports = ports def __json__(self): ethernet_switch_info = {"name": self.name, "console": self.console, "console_type": self.console_type, "node_id": self.id, "project_id": self.project.id, "ports_mapping": self._ports, "status": "started"} return ethernet_switch_info @property def console(self): return self._console @console.setter def console(self, console): self._console = console @property def console_type(self): return self._console_type @console_type.setter def console_type(self, console_type): if console_type == "telnet": self.project.emit("log.warning", { "message": '"{name}": Telnet access for switches is not available in this version of GNS3'.format(name=self._name)}) self._console_type = console_type @property def ports_mapping(self): """ Ports on this switch :returns: ports info """ return self._ports @ports_mapping.setter def ports_mapping(self, ports): """ Set the ports on this switch :param ports: ports info """ if ports != self._ports: if len(self._nios) > 0 and len(ports) != len(self._ports): raise NodeError("Can't modify a switch already connected.") port_number = 0 for port in ports: port["name"] = "Ethernet{}".format(port_number) port["port_number"] = port_number port_number += 1 self._ports = ports async def update_port_settings(self): for port_settings in self._ports: port_number = port_settings["port_number"] if port_number in self._nios and self._nios[port_number] is not None: await self.set_port_settings(port_number, port_settings) async def create(self): if self._hypervisor is None: module_workdir = self.project.module_working_directory(self.manager.module_name.lower()) self._hypervisor = await self.manager.start_new_hypervisor(working_dir=module_workdir) await self._hypervisor.send('ethsw create "{}"'.format(self._name)) log.info('Ethernet switch "{name}" [{id}] has been created'.format(name=self._name, id=self._id)) #self._telnet_shell = EthernetSwitchConsole(self) #self._telnet_shell.prompt = self._name + '> ' #self._telnet = create_telnet_shell(self._telnet_shell) #try: # self._telnet_server = (await asyncio.start_server(self._telnet.run, self._manager.port_manager.console_host, self.console)) #except OSError as e: # self.project.emit("log.warning", {"message": "Could not start Telnet server on socket {}:{}: {}".format(self._manager.port_manager.console_host, self.console, e)}) if self._console_type == "telnet": self.project.emit("log.warning", {"message": '"{name}": Telnet access for switches is not available in this version of GNS3'.format(name=self._name)}) self._hypervisor.devices.append(self) async def set_name(self, new_name): """ Renames this Ethernet switch. :param new_name: New name for this switch """ await self._hypervisor.send('ethsw rename "{name}" "{new_name}"'.format(name=self._name, new_name=new_name)) log.info('Ethernet switch "{name}" [{id}]: renamed to "{new_name}"'.format(name=self._name, id=self._id, new_name=new_name)) self._name = new_name @property def nios(self): """ Returns all the NIOs member of this Ethernet switch. :returns: nio list """ return self._nios @property def mappings(self): """ Returns port mappings :returns: mappings list """ return self._mappings async def delete(self): return (await self.close()) async def close(self): """ Deletes this Ethernet switch. """ #await self._telnet.close() #if self._telnet_server: # self._telnet_server.close() for nio in self._nios.values(): if nio: await nio.close() self.manager.port_manager.release_tcp_port(self._console, self._project) if self._hypervisor: try: await self._hypervisor.send('ethsw delete "{}"'.format(self._name)) log.info('Ethernet switch "{name}" [{id}] has been deleted'.format(name=self._name, id=self._id)) except DynamipsError: log.debug("Could not properly delete Ethernet switch {}".format(self._name)) if self._hypervisor and self in self._hypervisor.devices: self._hypervisor.devices.remove(self) if self._hypervisor and not self._hypervisor.devices: await self.hypervisor.stop() self._hypervisor = None return True async def add_nio(self, nio, port_number): """ Adds a NIO as new port on Ethernet switch. :param nio: NIO instance to add :param port_number: port to allocate for the NIO """ if port_number in self._nios: raise DynamipsError("Port {} isn't free".format(port_number)) await self._hypervisor.send('ethsw add_nio "{name}" {nio}'.format(name=self._name, nio=nio)) log.info('Ethernet switch "{name}" [{id}]: NIO {nio} bound to port {port}'.format(name=self._name, id=self._id, nio=nio, port=port_number)) self._nios[port_number] = nio for port_settings in self._ports: if port_settings["port_number"] == port_number: await self.set_port_settings(port_number, port_settings) break async def remove_nio(self, port_number): """ Removes the specified NIO as member of this Ethernet switch. :param port_number: allocated port number :returns: the NIO that was bound to the port """ if port_number not in self._nios: raise DynamipsError("Port {} is not allocated".format(port_number)) await self.stop_capture(port_number) nio = self._nios[port_number] if isinstance(nio, NIOUDP): self.manager.port_manager.release_udp_port(nio.lport, self._project) if self._hypervisor: await self._hypervisor.send('ethsw remove_nio "{name}" {nio}'.format(name=self._name, nio=nio)) log.info('Ethernet switch "{name}" [{id}]: NIO {nio} removed from port {port}'.format(name=self._name, id=self._id, nio=nio, port=port_number)) del self._nios[port_number] if port_number in self._mappings: del self._mappings[port_number] return nio def get_nio(self, port_number): """ Gets a port NIO binding. :param port_number: port number :returns: NIO instance """ if port_number not in self._nios: raise DynamipsError("Port {} is not allocated".format(port_number)) nio = self._nios[port_number] if not nio: raise DynamipsError("Port {} is not connected".format(port_number)) return nio async def set_port_settings(self, port_number, settings): """ Applies port settings to a specific port. :param port_number: port number to set the settings :param settings: port settings """ if settings["type"] == "access": await self.set_access_port(port_number, settings["vlan"]) elif settings["type"] == "dot1q": await self.set_dot1q_port(port_number, settings["vlan"]) elif settings["type"] == "qinq": await self.set_qinq_port(port_number, settings["vlan"], settings.get("ethertype")) async def set_access_port(self, port_number, vlan_id): """ Sets the specified port as an ACCESS port. :param port_number: allocated port number :param vlan_id: VLAN number membership """ if port_number not in self._nios: raise DynamipsError("Port {} is not allocated".format(port_number)) nio = self._nios[port_number] await self._hypervisor.send('ethsw set_access_port "{name}" {nio} {vlan_id}'.format(name=self._name, nio=nio, vlan_id=vlan_id)) log.info('Ethernet switch "{name}" [{id}]: port {port} set as an access port in VLAN {vlan_id}'.format(name=self._name, id=self._id, port=port_number, vlan_id=vlan_id)) self._mappings[port_number] = ("access", vlan_id) async def set_dot1q_port(self, port_number, native_vlan): """ Sets the specified port as a 802.1Q trunk port. :param port_number: allocated port number :param native_vlan: native VLAN for this trunk port """ if port_number not in self._nios: raise DynamipsError("Port {} is not allocated".format(port_number)) nio = self._nios[port_number] await self._hypervisor.send('ethsw set_dot1q_port "{name}" {nio} {native_vlan}'.format(name=self._name, nio=nio, native_vlan=native_vlan)) log.info('Ethernet switch "{name}" [{id}]: port {port} set as a 802.1Q port with native VLAN {vlan_id}'.format(name=self._name, id=self._id, port=port_number, vlan_id=native_vlan)) self._mappings[port_number] = ("dot1q", native_vlan) async def set_qinq_port(self, port_number, outer_vlan, ethertype): """ Sets the specified port as a trunk (QinQ) port. :param port_number: allocated port number :param outer_vlan: outer VLAN (transport VLAN) for this QinQ port """ if port_number not in self._nios: raise DynamipsError("Port {} is not allocated".format(port_number)) nio = self._nios[port_number] if ethertype != "0x8100" and parse_version(self.hypervisor.version) < parse_version('0.2.16'): raise DynamipsError("Dynamips version required is >= 0.2.16 to change the default QinQ Ethernet type, detected version is {}".format(self.hypervisor.version)) await self._hypervisor.send('ethsw set_qinq_port "{name}" {nio} {outer_vlan} {ethertype}'.format(name=self._name, nio=nio, outer_vlan=outer_vlan, ethertype=ethertype if ethertype != "0x8100" else "")) log.info('Ethernet switch "{name}" [{id}]: port {port} set as a QinQ ({ethertype}) port with outer VLAN {vlan_id}'.format(name=self._name, id=self._id, port=port_number, vlan_id=outer_vlan, ethertype=ethertype)) self._mappings[port_number] = ("qinq", outer_vlan, ethertype) async def get_mac_addr_table(self): """ Returns the MAC address table for this Ethernet switch. :returns: list of entries (Ethernet address, VLAN, NIO) """ mac_addr_table = await self._hypervisor.send('ethsw show_mac_addr_table "{}"'.format(self._name)) return mac_addr_table async def clear_mac_addr_table(self): """ Clears the MAC address table for this Ethernet switch. """ await self._hypervisor.send('ethsw clear_mac_addr_table "{}"'.format(self._name)) async def start_capture(self, port_number, output_file, data_link_type="DLT_EN10MB"): """ Starts a packet capture. :param port_number: allocated port number :param output_file: PCAP destination file for the capture :param data_link_type: PCAP data link type (DLT_*), default is DLT_EN10MB """ nio = self.get_nio(port_number) data_link_type = data_link_type.lower() if data_link_type.startswith("dlt_"): data_link_type = data_link_type[4:] if nio.input_filter[0] is not None and nio.output_filter[0] is not None: raise DynamipsError("Port {} has already a filter applied".format(port_number)) await nio.start_packet_capture(output_file, data_link_type) log.info('Ethernet switch "{name}" [{id}]: starting packet capture on port {port}'.format(name=self._name, id=self._id, port=port_number)) async def stop_capture(self, port_number): """ Stops a packet capture. :param port_number: allocated port number """ nio = self.get_nio(port_number) if not nio.capturing: return await nio.stop_packet_capture() log.info('Ethernet switch "{name}" [{id}]: stopping packet capture on port {port}'.format(name=self._name, id=self._id, port=port_number))