-#!/usr/bin/env python
# -*- coding: utf-8 -*-
from constants import TESTBED_ID
import os
import os.path
import random
+import ipaddr
+import functools
import tunproto
self.address, self.netmask,
self.lladdr,
)
+
+ __repr__ = __str__
def add_address(self, address, netprefix, broadcast):
raise RuntimeError, "Cannot add explicit addresses to public interface"
if self.node is None or self.node._node_id is None:
raise RuntimeError, "Cannot pick interface without an assigned node"
-
+
+ # HACK: SFA doesnt give the node_id!!
+ if not isinstance(self.node._node_id, int):
+ node_data = self._api.GetNodes(filters={'hostname':self.node.hostname}, fields=('node_id',))[0]
+ node_id = node_data['node_id']
+ else:
+ node_id = self.node._node_id
+
avail = self._api.GetInterfaces(
- node_id=self.node._node_id,
+ node_id=node_id,
is_primary=self.primary,
fields=('interface_id','mac','netmask','ip') )
class _CrossIface(object):
- def __init__(self, proto, addr, port):
+ def __init__(self, proto, addr, port, cipher):
self.tun_proto = proto
self.tun_addr = addr
self.tun_port = port
-
+ self.tun_cipher = cipher
+
+ # Attributes
+ self.address = None
+ self.netprefix = None
+ self.netmask = None
+
# Cannot access cross peers
self.peer_proto_impl = None
self.__class__.__name__,
( self.tun_proto,
self.tun_addr,
- self.tun_port )
+ self.tun_port,
+ self.tun_cipher )
)
+
+ __repr__ = __str__
class TunIface(object):
_PROTO_MAP = tunproto.TUN_PROTO_MAP
self.netmask = None
self.up = None
- self.device_name = None
self.mtu = None
self.snat = False
- self.txqueuelen = None
+ self.txqueuelen = 1000
self.pointopoint = None
+ self.multicast = False
+ self.bwlimit = None
# Enabled traces
self.capture = False
# These get initialized when the iface is connected to its node
self.node = None
+ # These get initialized when the iface is connected to any filter
+ self.filter_module = None
+ self.multicast_forwarder = None
+
# These get initialized when the iface is configured
self.external_iface = None
# They're part of the TUN standard attribute set
self.tun_port = None
self.tun_addr = None
+ self.tun_cipher = "AES"
# These get initialized when the iface is connected to its peer
self.peer_iface = None
self.peer_addr = None
self.peer_port = None
self.peer_proto_impl = None
+ self._delay_recover = False
# same as peer proto, but for execute-time standard attribute lookups
self.tun_proto = None
def __str__(self):
- return "%s<ip:%s/%s %s%s>" % (
+ return "%s<ip:%s/%s %s%s%s>" % (
self.__class__.__name__,
self.address, self.netprefix,
" up" if self.up else " down",
" snat" if self.snat else "",
+ (" p2p %s" % (self.pointopoint,)) if self.pointopoint else "",
)
+
+ __repr__ = __str__
+
+ @property
+ def if_name(self):
+ if self.peer_proto_impl:
+ return self.peer_proto_impl.if_name
+
+ def if_up(self):
+ if self.peer_proto_impl:
+ return self.peer_proto_impl.if_up()
+ def if_down(self):
+ if self.peer_proto_impl:
+ return self.peer_proto_impl.if_down()
+
+ def routes_here(self, route):
+ """
+ Returns True if the route should be attached to this interface
+ (ie, it references a gateway in this interface's network segment)
+ """
+ if self.address and self.netprefix:
+ addr, prefix = self.address, self.netprefix
+ pointopoint = self.pointopoint
+ if not pointopoint and self.peer_iface:
+ pointopoint = self.peer_iface.address
+
+ if pointopoint:
+ prefix = 32
+
+ dest, destprefix, nexthop, metric, device = route
+
+ myNet = ipaddr.IPv4Network("%s/%d" % (addr, prefix))
+ gwIp = ipaddr.IPv4Network(nexthop)
+
+ if pointopoint:
+ peerIp = ipaddr.IPv4Network(pointopoint)
+
+ if gwIp == peerIp:
+ return True
+ else:
+ if gwIp in myNet:
+ return True
+ return False
+
def add_address(self, address, netprefix, broadcast):
if (self.address or self.netprefix or self.netmask) is not None:
raise RuntimeError, "Cannot add more than one address to %s interfaces" % (self._KIND,)
if broadcast:
- raise ValueError, "%s interfaces cannot broadcast in PlanetLab" % (self._KIND,)
+ raise ValueError, "%s interfaces cannot broadcast in PlanetLab (%s)" % (self._KIND,broadcast)
self.address = address
self.netprefix = netprefix
raise RuntimeError, "Unsupported tunnelling protocol: %s" % (self.peer_proto,)
if not self.address or not self.netprefix or not self.netmask:
raise RuntimeError, "Misconfigured %s iface - missing address" % (self._KIND,)
+ if self.filter_module and self.peer_proto not in ('udp','tcp',None):
+ raise RuntimeError, "Miscofnigured TUN: %s - filtered tunnels only work with udp or tcp links" % (self,)
+ if self.tun_cipher != 'PLAIN' and self.peer_proto not in ('udp','tcp',None):
+ raise RuntimeError, "Miscofnigured TUN: %s - ciphered tunnels only work with udp or tcp links" % (self,)
- def _impl_instance(self, home_path, listening):
+ def _impl_instance(self, home_path):
impl = self._PROTO_MAP[self.peer_proto](
- self, self.peer_iface, home_path, self.tun_key, listening)
+ self, self.peer_iface, home_path, self.tun_key)
impl.port = self.tun_port
+ impl.cross_slice = not self.peer_iface or isinstance(self.peer_iface, _CrossIface)
return impl
- def prepare(self, home_path, listening):
- if not self.peer_iface and (self.peer_proto and (listening or (self.peer_addr and self.peer_port))):
+ def recover(self):
+ if self.peer_proto:
+ self.peer_proto_impl = self._impl_instance(
+ self._home_path)
+ self.peer_proto_impl.recover()
+ else:
+ self._delay_recover = True
+
+ def prepare(self, home_path):
+ if not self.peer_iface and (self.peer_proto and self.peer_addr):
# Ad-hoc peer_iface
self.peer_iface = _CrossIface(
self.peer_proto,
self.peer_addr,
- self.peer_port)
+ self.peer_port,
+ self.peer_cipher)
if self.peer_iface:
if not self.peer_proto_impl:
- self.peer_proto_impl = self._impl_instance(home_path, listening)
- self.peer_proto_impl.prepare()
+ self.peer_proto_impl = self._impl_instance(home_path)
+ if self._delay_recover:
+ self.peer_proto_impl.recover()
- def setup(self):
+ def launch(self):
if self.peer_proto_impl:
- self.peer_proto_impl.setup()
+ self.peer_proto_impl.launch()
def cleanup(self):
if self.peer_proto_impl:
self.peer_proto_impl.shutdown()
+
+ def destroy(self):
+ if self.peer_proto_impl:
+ self.peer_proto_impl.destroy()
self.peer_proto_impl = None
- def async_launch_wait(self):
+ def wait(self):
if self.peer_proto_impl:
- self.peer_proto_impl.async_launch_wait()
+ self.peer_proto_impl.wait()
- def sync_trace(self, local_dir, whichtrace):
+ def sync_trace(self, local_dir, whichtrace, tracemap = None):
+ if self.peer_proto_impl:
+ return self.peer_proto_impl.sync_trace(local_dir, whichtrace,
+ tracemap)
+ else:
+ return None
+
+ def remote_trace_path(self, whichtrace, tracemap = None):
if self.peer_proto_impl:
- return self.peer_proto_impl.sync_trace(local_dir, whichtrace)
+ return self.peer_proto_impl.remote_trace_path(whichtrace, tracemap)
else:
return None
+ def remote_trace_name(self, whichtrace):
+ return whichtrace
+
class TapIface(TunIface):
_PROTO_MAP = tunproto.TAP_PROTO_MAP
_KIND = 'TAP'
options = ' '.join(options)
return (scope,options)
+
+ def recover(self):
+ # Rules are safe on their nodes
+ self.configured = True
def configure(self):
# set up rule
return local_path
+class TunFilter(object):
+ _TRACEMAP = {
+ # tracename : (remotename, localname)
+ }
+
+ def __init__(self, api=None):
+ if not api:
+ api = plcapi.PLCAPI()
+ self._api = api
+
+ # Attributes
+ self.module = None
+ self.args = None
+
+ # These get initialised when the filter is connected
+ self.peer_guid = None
+ self.peer_proto = None
+ self.iface_guid = None
+ self.peer = None
+ self.iface = None
+
+ def _get(what, self):
+ wref = self.iface
+ if wref:
+ wref = wref()
+ if wref:
+ return getattr(wref, what)
+ else:
+ return None
+
+ def _set(what, self, val):
+ wref = self.iface
+ if wref:
+ wref = wref()
+ if wref:
+ setattr(wref, what, val)
+
+ tun_proto = property(
+ functools.partial(_get, 'tun_proto'),
+ functools.partial(_set, 'tun_proto') )
+ tun_addr = property(
+ functools.partial(_get, 'tun_addr'),
+ functools.partial(_set, 'tun_addr') )
+ tun_port = property(
+ functools.partial(_get, 'tun_port'),
+ functools.partial(_set, 'tun_port') )
+ tun_key = property(
+ functools.partial(_get, 'tun_key'),
+ functools.partial(_set, 'tun_key') )
+ tun_cipher = property(
+ functools.partial(_get, 'tun_cipher'),
+ functools.partial(_set, 'tun_cipher') )
+
+ del _get
+ del _set
+
+ def remote_trace_path(self, whichtrace):
+ iface = self.iface()
+ if iface is not None:
+ return iface.remote_trace_path(whichtrace, self._TRACEMAP)
+ return None
+
+ def remote_trace_name(self, whichtrace):
+ iface = self.iface()
+ if iface is not None:
+ return iface.remote_trace_name(whichtrace, self._TRACEMAP)
+ return None
+
+ def sync_trace(self, local_dir, whichtrace):
+ iface = self.iface()
+ if iface is not None:
+ return iface.sync_trace(local_dir, whichtrace, self._TRACEMAP)
+ return None
+
+class ClassQueueFilter(TunFilter):
+ _TRACEMAP = {
+ # tracename : (remotename, localname)
+ 'dropped_stats' : ('dropped_stats', 'dropped_stats')
+ }
+
+ def __init__(self, api=None):
+ super(ClassQueueFilter, self).__init__(api)
+ # Attributes
+ self.module = "classqueue.py"
+
+class LoggingClassQueueFilter(ClassQueueFilter):
+ _TRACEMAP = ClassQueueFilter._TRACEMAP.copy()
+ _TRACEMAP.update({
+ # tracename : (remotename, localname)
+ 'queue_stats_f' : ('queue_stats_f', 'queue_stats_f'),
+ 'queue_stats_b' : ('queue_stats_b', 'queue_stats_b'),
+ })
+
+ def __init__(self, api=None):
+ super(LoggingClassQueueFilter, self).__init__(api)
+ # Attributes
+ self.module = "loggingclassqueue.py classqueue.py"
+
+ def _args_get(self):
+ # Inject outpath
+ args = dict(filter(lambda x:len(x)>1, map(lambda x:x.split('=',1),(self._args or "").split(','))))
+ args["outpath"] = "queue_stats"
+ return ",".join(map("=".join, args.iteritems()))
+ def _args_set(self, value):
+ self._args = value
+ args = property(_args_get, _args_set)
+
+class ToSQueueFilter(TunFilter):
+ def __init__(self, api=None):
+ super(ToSQueueFilter, self).__init__(api)
+ # Attributes
+ self.module = "tosqueue.py"
+