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gns3-server/gns3server/compute/dynamips/nodes/atm_switch.py
grossmj 2764828f38 Refactor how clients access PCAP capture files. Fixes https://github.com/GNS3/gns3-gui/issues/2438.
* The PCAP file is directly accessed if controller and client are on the same host.
* The PCAP file is streamed from the compute server to the client with the controller as a proxy when the controller is remote for the client.
2018-10-27 14:47:17 +07:00

473 lines
27 KiB
Python

# -*- 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 <http://www.gnu.org/licenses/>.
"""
Interface for Dynamips virtual ATM switch module ("atmsw").
http://github.com/GNS3/dynamips/blob/master/README.hypervisor#L593
"""
import asyncio
import re
from .device import Device
from ..nios.nio_udp import NIOUDP
from ..dynamips_error import DynamipsError
import logging
log = logging.getLogger(__name__)
class ATMSwitch(Device):
"""
Dynamips ATM switch.
:param name: name for this switch
:param node_id: Node instance identifier
:param project: Project instance
:param manager: Parent VM Manager
:param hypervisor: Dynamips hypervisor instance
"""
def __init__(self, name, node_id, project, manager, mappings=None, hypervisor=None):
super().__init__(name, node_id, project, manager, hypervisor)
self._nios = {}
self._active_mappings = {}
self._mappings = {}
if mappings:
self._mappings = mappings
def __json__(self):
mappings = {}
for source, destination in self._mappings.items():
mappings[source] = destination
return {"name": self.name,
"node_id": self.id,
"project_id": self.project.id,
"mappings": mappings,
"status": "started"}
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('atmsw create "{}"'.format(self._name))
log.info('ATM switch "{name}" [{id}] has been created'.format(name=self._name, id=self._id))
self._hypervisor.devices.append(self)
async def set_name(self, new_name):
"""
Renames this ATM switch.
:param new_name: New name for this switch
"""
await self._hypervisor.send('atm rename "{name}" "{new_name}"'.format(name=self._name, new_name=new_name))
log.info('ATM 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 ATM switch.
:returns: nio list
"""
return self._nios
@property
def mappings(self):
"""
Returns port mappings
:returns: mappings list
"""
return self._mappings
@mappings.setter
def mappings(self, mappings):
"""
Sets port mappings
:param mappings: mappings list
"""
self._mappings = mappings
async def close(self):
for nio in self._nios.values():
if nio:
await nio.close()
if self._hypervisor:
try:
await self._hypervisor.send('atmsw delete "{}"'.format(self._name))
log.info('ATM switch "{name}" [{id}] has been deleted'.format(name=self._name, id=self._id))
except DynamipsError:
log.debug("Could not properly delete ATM 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 delete(self):
"""
Deletes this ATM switch.
"""
await self.close()
def has_port(self, port):
"""
Checks if a port exists on this ATM switch.
:returns: boolean
"""
if port in self._nios:
return True
return False
async def add_nio(self, nio, port_number):
"""
Adds a NIO as new port on ATM 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))
log.info('ATM switch "{name}" [id={id}]: NIO {nio} bound to port {port}'.format(name=self._name,
id=self._id,
nio=nio,
port=port_number))
self._nios[port_number] = nio
await self.set_mappings(self._mappings)
async def remove_nio(self, port_number):
"""
Removes the specified NIO as member of this ATM switch.
:param port_number: allocated port number
"""
if port_number not in self._nios:
raise DynamipsError("Port {} is not allocated".format(port_number))
# remove VCs mapped with the port
for source, destination in self._active_mappings.copy().items():
if len(source) == 3 and len(destination) == 3:
# remove the virtual channels mapped with this port/nio
source_port, source_vpi, source_vci = source
destination_port, destination_vpi, destination_vci = destination
if port_number == source_port:
log.info('ATM switch "{name}" [{id}]: unmapping VCC between port {source_port} VPI {source_vpi} VCI {source_vci} and port {destination_port} VPI {destination_vpi} VCI {destination_vci}'.format(name=self._name,
id=self._id,
source_port=source_port,
source_vpi=source_vpi,
source_vci=source_vci,
destination_port=destination_port,
destination_vpi=destination_vpi,
destination_vci=destination_vci))
await self.unmap_pvc(source_port, source_vpi, source_vci, destination_port, destination_vpi, destination_vci)
await self.unmap_pvc(destination_port, destination_vpi, destination_vci, source_port, source_vpi, source_vci)
else:
# remove the virtual paths mapped with this port/nio
source_port, source_vpi = source
destination_port, destination_vpi = destination
if port_number == source_port:
log.info('ATM switch "{name}" [{id}]: unmapping VPC between port {source_port} VPI {source_vpi} and port {destination_port} VPI {destination_vpi}'.format(name=self._name,
id=self._id,
source_port=source_port,
source_vpi=source_vpi,
destination_port=destination_port,
destination_vpi=destination_vpi))
await self.unmap_vp(source_port, source_vpi, destination_port, destination_vpi)
await self.unmap_vp(destination_port, destination_vpi, source_port, source_vpi)
nio = self._nios[port_number]
if isinstance(nio, NIOUDP):
self.manager.port_manager.release_udp_port(nio.lport, self._project)
log.info('ATM 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]
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_mappings(self, mappings):
"""
Applies VC mappings
:param mappings: mappings (dict)
"""
pvc_entry = re.compile(r"""^([0-9]*):([0-9]*):([0-9]*)$""")
for source, destination in mappings.items():
if not isinstance(source, str) or not isinstance(destination, str):
raise DynamipsError("Invalid ATM mappings")
match_source_pvc = pvc_entry.search(source)
match_destination_pvc = pvc_entry.search(destination)
if match_source_pvc and match_destination_pvc:
# add the virtual channels
source_port, source_vpi, source_vci = map(int, match_source_pvc.group(1, 2, 3))
destination_port, destination_vpi, destination_vci = map(int, match_destination_pvc.group(1, 2, 3))
if self.has_port(destination_port):
if (source_port, source_vpi, source_vci) not in self._active_mappings and \
(destination_port, destination_vpi, destination_vci) not in self._active_mappings:
log.info('ATM switch "{name}" [{id}]: mapping VCC between port {source_port} VPI {source_vpi} VCI {source_vci} and port {destination_port} VPI {destination_vpi} VCI {destination_vci}'.format(name=self._name,
id=self._id,
source_port=source_port,
source_vpi=source_vpi,
source_vci=source_vci,
destination_port=destination_port,
destination_vpi=destination_vpi,
destination_vci=destination_vci))
await self.map_pvc(source_port, source_vpi, source_vci, destination_port, destination_vpi, destination_vci)
await self.map_pvc(destination_port, destination_vpi, destination_vci, source_port, source_vpi, source_vci)
else:
# add the virtual paths
source_port, source_vpi = map(int, source.split(':'))
destination_port, destination_vpi = map(int, destination.split(':'))
if self.has_port(destination_port):
if (source_port, source_vpi) not in self._active_mappings and (destination_port, destination_vpi) not in self._active_mappings:
log.info('ATM switch "{name}" [{id}]: mapping VPC between port {source_port} VPI {source_vpi} and port {destination_port} VPI {destination_vpi}'.format(name=self._name,
id=self._id,
source_port=source_port,
source_vpi=source_vpi,
destination_port=destination_port,
destination_vpi=destination_vpi))
await self.map_vp(source_port, source_vpi, destination_port, destination_vpi)
await self.map_vp(destination_port, destination_vpi, source_port, source_vpi)
async def map_vp(self, port1, vpi1, port2, vpi2):
"""
Creates a new Virtual Path connection.
:param port1: input port
:param vpi1: input vpi
:param port2: output port
:param vpi2: output vpi
"""
if port1 not in self._nios:
return
if port2 not in self._nios:
return
nio1 = self._nios[port1]
nio2 = self._nios[port2]
await self._hypervisor.send('atmsw create_vpc "{name}" {input_nio} {input_vpi} {output_nio} {output_vpi}'.format(name=self._name,
input_nio=nio1,
input_vpi=vpi1,
output_nio=nio2,
output_vpi=vpi2))
log.info('ATM switch "{name}" [{id}]: VPC from port {port1} VPI {vpi1} to port {port2} VPI {vpi2} created'.format(name=self._name,
id=self._id,
port1=port1,
vpi1=vpi1,
port2=port2,
vpi2=vpi2))
self._active_mappings[(port1, vpi1)] = (port2, vpi2)
async def unmap_vp(self, port1, vpi1, port2, vpi2):
"""
Deletes a new Virtual Path connection.
:param port1: input port
:param vpi1: input vpi
:param port2: output port
:param vpi2: output vpi
"""
if port1 not in self._nios:
return
if port2 not in self._nios:
return
nio1 = self._nios[port1]
nio2 = self._nios[port2]
await self._hypervisor.send('atmsw delete_vpc "{name}" {input_nio} {input_vpi} {output_nio} {output_vpi}'.format(name=self._name,
input_nio=nio1,
input_vpi=vpi1,
output_nio=nio2,
output_vpi=vpi2))
log.info('ATM switch "{name}" [{id}]: VPC from port {port1} VPI {vpi1} to port {port2} VPI {vpi2} deleted'.format(name=self._name,
id=self._id,
port1=port1,
vpi1=vpi1,
port2=port2,
vpi2=vpi2))
del self._active_mappings[(port1, vpi1)]
async def map_pvc(self, port1, vpi1, vci1, port2, vpi2, vci2):
"""
Creates a new Virtual Channel connection (unidirectional).
:param port1: input port
:param vpi1: input vpi
:param vci1: input vci
:param port2: output port
:param vpi2: output vpi
:param vci2: output vci
"""
if port1 not in self._nios:
return
if port2 not in self._nios:
return
nio1 = self._nios[port1]
nio2 = self._nios[port2]
await self._hypervisor.send('atmsw create_vcc "{name}" {input_nio} {input_vpi} {input_vci} {output_nio} {output_vpi} {output_vci}'.format(name=self._name,
input_nio=nio1,
input_vpi=vpi1,
input_vci=vci1,
output_nio=nio2,
output_vpi=vpi2,
output_vci=vci2))
log.info('ATM switch "{name}" [{id}]: VCC from port {port1} VPI {vpi1} VCI {vci1} to port {port2} VPI {vpi2} VCI {vci2} created'.format(name=self._name,
id=self._id,
port1=port1,
vpi1=vpi1,
vci1=vci1,
port2=port2,
vpi2=vpi2,
vci2=vci2))
self._active_mappings[(port1, vpi1, vci1)] = (port2, vpi2, vci2)
async def unmap_pvc(self, port1, vpi1, vci1, port2, vpi2, vci2):
"""
Deletes a new Virtual Channel connection (unidirectional).
:param port1: input port
:param vpi1: input vpi
:param vci1: input vci
:param port2: output port
:param vpi2: output vpi
:param vci2: output vci
"""
if port1 not in self._nios:
return
if port2 not in self._nios:
return
nio1 = self._nios[port1]
nio2 = self._nios[port2]
await self._hypervisor.send('atmsw delete_vcc "{name}" {input_nio} {input_vpi} {input_vci} {output_nio} {output_vpi} {output_vci}'.format(name=self._name,
input_nio=nio1,
input_vpi=vpi1,
input_vci=vci1,
output_nio=nio2,
output_vpi=vpi2,
output_vci=vci2))
log.info('ATM switch "{name}" [{id}]: VCC from port {port1} VPI {vpi1} VCI {vci1} to port {port2} VPI {vpi2} VCI {vci2} deleted'.format(name=self._name,
id=self._id,
port1=port1,
vpi1=vpi1,
vci1=vci1,
port2=port2,
vpi2=vpi2,
vci2=vci2))
del self._active_mappings[(port1, vpi1, vci1)]
async def start_capture(self, port_number, output_file, data_link_type="DLT_ATM_RFC1483"):
"""
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_ATM_RFC1483
"""
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.bind_filter("both", "capture")
await nio.setup_filter("both", '{} "{}"'.format(data_link_type, output_file))
log.info('ATM 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)
await nio.unbind_filter("both")
log.info('ATM switch "{name}" [{id}]: stopping packet capture on port {port}'.format(name=self._name,
id=self._id,
port=port_number))