#!/usr/bin/python # # run iperf to measure the effective throughput between two nodes when # n nodes are connected to a virtual wlan; run test for testsec # and repeat for minnodes <= n <= maxnodes with a step size of # nodestep import datetime import parser from core.emulator.coreemu import CoreEmu from core.emulator.emudata import IpPrefixes from core.enumerations import NodeTypes, EventTypes from core.mobility import BasicRangeModel def example(options): # ip generator for example prefixes = IpPrefixes("10.83.0.0/16") # create emulator instance for creating sessions and utility methods coreemu = CoreEmu() session = coreemu.create_session() # must be in configuration state for nodes to start, when using "node_add" below session.set_state(EventTypes.CONFIGURATION_STATE) # create wlan network node wlan = session.add_node(_type=NodeTypes.WIRELESS_LAN) session.set_wireless_model(wlan, BasicRangeModel) # create nodes wireless_nodes = [] for _ in xrange(options.nodes): node = session.add_node() interface = prefixes.create_interface(node) session.add_link(node.objid, wlan.objid, interface_one=interface) wireless_nodes.append(node) # link all created nodes with the wireless network session.wireless_link_all(wlan, wireless_nodes) # instantiate session session.instantiate() # get nodes for example run first_node = session.get_object(2) last_node = session.get_object(options.nodes + 1) print "starting iperf server on node: %s" % first_node.name first_node.cmd(["iperf", "-s", "-D"]) address = prefixes.ip4_address(first_node) print "node %s connecting to %s" % (last_node.name, address) last_node.client.icmd(["iperf", "-t", str(options.time), "-c", address]) first_node.cmd(["killall", "-9", "iperf"]) # shutdown session coreemu.shutdown() def main(): options = parser.parse_options("wlan") start = datetime.datetime.now() print "running wlan example: nodes(%s) time(%s)" % (options.nodes, options.time) example(options) print "elapsed time: %s" % (datetime.datetime.now() - start) if __name__ == "__main__": main()