2 # NEPI, a framework to manage network experiments
3 # Copyright (C) 2013 INRIA
5 # This program is free software: you can redistribute it and/or modify
6 # it under the terms of the GNU General Public License as published by
7 # the Free Software Foundation, either version 3 of the License, or
8 # (at your option) any later version.
10 # This program is distributed in the hope that it will be useful,
11 # but WITHOUT ANY WARRANTY; without even the implied warranty of
12 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 # GNU General Public License for more details.
15 # You should have received a copy of the GNU General Public License
16 # along with this program. If not, see <http://www.gnu.org/licenses/>.
18 # Author: Alina Quereilhac <alina.quereilhac@inria.fr>
20 from nepi.execution.attribute import Attribute, Flags, Types
21 from nepi.execution.resource import clsinit_copy, ResourceState
22 from nepi.resources.linux.tunnel import LinuxTunnel
23 from nepi.util.sshfuncs import ProcStatus
24 from nepi.util.timefuncs import tnow, tdiffsec
31 class LinuxUdpTunnel(LinuxTunnel):
32 _rtype = "linux::UdpTunnel"
33 _help = "Constructs a tunnel between two Linux endpoints using a UDP connection "
37 def _register_attributes(cls):
38 cipher = Attribute("cipher",
39 "Cipher to encript communication. "
40 "One of PLAIN, AES, Blowfish, DES, DES3. ",
42 allowed = ["PLAIN", "AES", "Blowfish", "DES", "DES3"],
43 type = Types.Enumerate,
46 cipher_key = Attribute("cipherKey",
47 "Specify a symmetric encryption key with which to protect "
48 "packets across the tunnel. python-crypto must be installed "
52 txqueuelen = Attribute("txQueueLen",
53 "Specifies the interface's transmission queue length. "
58 bwlimit = Attribute("bwLimit",
59 "Specifies the interface's emulated bandwidth in bytes "
64 cls._register_attribute(cipher)
65 cls._register_attribute(cipher_key)
66 cls._register_attribute(txqueuelen)
67 cls._register_attribute(bwlimit)
69 def __init__(self, ec, guid):
70 super(LinuxUdpTunnel, self).__init__(ec, guid)
71 self._home = "udp-tunnel-%s" % self.guid
74 def log_message(self, msg):
75 return " guid %d - udptunnel %s - %s - %s " % (self.guid,
76 self.endpoint1.node.get("hostname"),
77 self.endpoint2.node.get("hostname"),
80 def get_endpoints(self):
81 """ Returns the list of RM that are endpoints to the tunnel
84 for guid in self.connections:
85 rm = self.ec.get_resource(guid)
86 if hasattr(rm, "initiate_udp_connection"):
90 def initiate_connection(self, endpoint, remote_endpoint):
91 cipher = self.get("cipher")
92 cipher_key = self.get("cipherKey")
93 bwlimit = self.get("bwLimit")
94 txqueuelen = self.get("txQueueLen")
95 connection_app_home = self.app_home(endpoint)
96 connection_run_home = self.run_home(endpoint)
98 port = endpoint.initiate_udp_connection(
102 cipher, cipher_key, bwlimit, txqueuelen)
106 def establish_connection(self, endpoint, remote_endpoint, port):
107 connection_app_home = self.app_home(endpoint)
108 connection_run_home = self.run_home(endpoint)
110 endpoint.establish_udp_connection(remote_endpoint,
115 def verify_connection(self, endpoint, remote_endpoint):
116 connection_app_home = self.app_home(endpoint)
117 connection_run_home = self.run_home(endpoint)
119 endpoint.verify_connection(remote_endpoint,
123 def terminate_connection(self, endpoint, remote_endpoint):
124 connection_app_home = self.app_home(endpoint)
125 connection_run_home = self.run_home(endpoint)
127 endpoint.terminate_connection(remote_endpoint,
131 def check_state_connection(self):
132 # Make sure the process is still running in background
133 # No execution errors occurred. Make sure the background
134 # process with the recorded pid is still running.
136 status1 = self.endpoint1.check_status()
137 status2 = self.endpoint2.check_status()
139 if status1 == ProcStatus.FINISHED and \
140 status2 == ProcStatus.FINISHED:
142 # check if execution errors occurred
143 (out1, err1), proc1 = self.endpoint1.node.check_errors(
144 self.run_home(self.endpoint1))
146 (out2, err2), proc2 = self.endpoint2.node.check_errors(
147 self.run_home(self.endpoint2))
150 msg = "Error occurred in tunnel"
151 self.error(msg, err1, err2)