#
# NEPI, a framework to manage network experiments
# Copyright (C) 2014 INRIA
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 2 as
# published by the Free Software Foundation;
#
# 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/>.
#
# Author: Alina Quereilhac <alina.quereilhac@inria.fr>
from nepi.execution.attribute import Attribute, Flags, Types
from nepi.execution.resource import clsinit_copy, ResourceState
from nepi.resources.ns3.ns3application import NS3BaseApplication
from nepi.execution.trace import TraceAttr
from nepi.resources.ns3.ns3wrapper import SIMULATOR_UUID
import os
import time
import threading
@clsinit_copy
[docs]class NS3BaseDceApplication(NS3BaseApplication):
_rtype = "abstract::ns3::DceApplication"
@classmethod
def _register_attributes(cls):
binary = Attribute("binary",
"Name of binary to execute",
flags = Flags.Design)
stack_size = Attribute("stackSize",
"Stack Size for DCE",
type = Types.Integer,
default = 1<<20,
flags = Flags.Design)
arguments = Attribute("arguments",
"Semi-colon separated list of arguments for the application",
flags = Flags.Design)
environment = Attribute("environment",
"Semi-colon separated list of 'key=value' pairs to set as "
"DCE environment variables.",
flags = Flags.Design)
use_dlm = Attribute("useDlmLoader",
"Use ns3::DlmLoaderFactory as library loader",
type = Types.Bool,
flags = Flags.Design)
starttime = Attribute("StartTime",
"Time at which the application will start",
default = "+0.0ns",
flags = Flags.Reserved | Flags.Construct)
stoptime = Attribute("StopTime",
"Time at which the application will stop",
default = "+0.0ns",
flags = Flags.Reserved | Flags.Construct)
cls._register_attribute(binary)
cls._register_attribute(stack_size)
cls._register_attribute(arguments)
cls._register_attribute(environment)
cls._register_attribute(use_dlm)
cls._register_attribute(stoptime)
cls._register_attribute(starttime)
def __init__(self, ec, guid):
super(NS3BaseDceApplication, self).__init__(ec, guid)
self._pid = None
@property
[docs] def pid(self):
return self._pid
def _instantiate_object(self):
pass
def _connect_object(self):
node = self.node
if node.uuid not in self.connected:
self._connected.add(node.uuid)
# Preventing concurrent access to the DceApplicationHelper
# from different DceApplication RMs
dce_helper = self.simulation.dce_helper
with dce_helper.dce_application_lock:
dce_app_uuid = dce_helper.dce_application_uuid
self.simulation.invoke(dce_app_uuid, "ResetArguments")
self.simulation.invoke(dce_app_uuid, "ResetEnvironment")
self.simulation.invoke(dce_app_uuid,
"SetBinary", self.get("binary"))
self.simulation.invoke(dce_app_uuid,
"SetStackSize", self.get("stackSize"))
arguments = self.get("arguments")
if arguments:
for arg in map(str.strip, arguments.split(";")):
self.simulation.invoke(dce_app_uuid,
"AddArgument", arg)
environment = self.get("environment")
if environment:
for env in map(str.strip, environment.split(";")):
key, val = env.split("=")
self.simulation.invoke(dce_app_uuid,
"AddEnvironment", key, val)
apps_uuid = self.simulation.invoke(dce_app_uuid,
"InstallInNode", self.node.uuid)
self._uuid = self.simulation.invoke(apps_uuid, "Get", 0)
if self.has_changed("StartTime"):
self.simulation.ns3_set(self.uuid, "StartTime", self.get("StartTime"))
if self.has_changed("StopTime"):
self.simulation.ns3_set(self.uuid, "StopTime", self.get("StopTime"))
[docs] def do_stop(self):
if self.state == ResourceState.STARTED:
# No need to do anything, simulation.Destroy() will stop every object
self.info("Stopping command '%s'" % command)
self.simulation.invoke(self.uuid, "Stop")
self.set_stopped()
[docs] def do_start(self):
if self.simulation.state < ResourceState.STARTED:
self.debug("---- RESCHEDULING START ----" )
self.ec.schedule(self.reschedule_delay, self.start)
else:
is_app_started = self.simulation.invoke(self.uuid, "isAppStarted")
if is_app_started or self.simulation.state > ResourceState.STARTED:
super(NS3BaseApplication, self).do_start()
self._start_time = self.simulation.start_time
else:
# Reschedule until dce application is actually started
self.debug("---- RESCHEDULING START ----" )
self.ec.schedule(self.reschedule_delay, self.start)
[docs] def trace(self, name, attr = TraceAttr.ALL, block = 512, offset = 0):
self._configure_traces()
return super(NS3BaseDceApplication, self).trace(name, attr = attr,
block = block, offset = offset)
def _configure_traces(self):
if self.pid is not None:
return
# Using lock to prevent concurrent access to the DceApplicationHelper
# from different DceApplication RMs
dce_helper = self.simulation.dce_helper
with dce_helper.dce_application_lock:
dce_app_uuid = dce_helper.dce_application_uuid
self._pid = self.simulation.invoke(dce_app_uuid,
"GetPid", self.uuid)
node_id = self.node.node_id
self._trace_filename["stdout"] = "files-%s/var/log/%s/stdout" % (node_id, self.pid)
self._trace_filename["stderr"] = "files-%s/var/log/%s/stderr" % (node_id, self.pid)
self._trace_filename["status"] = "files-%s/var/log/%s/status" % (node_id, self.pid)
self._trace_filename["cmdline"] = "files-%s/var/log/%s/cmdline" % (node_id, self.pid)