#!/usr/bin/python -i # Copyright (c)2010-2013 the Boeing Company. # See the LICENSE file included in this distribution. # A distributed example where CORE API messaging is used to create a session # distributed across the local server and one slave server. The slave server # must be specified using the '-s ' parameter, and needs to be # running the daemon with listenaddr=0.0.0.0 in the core.conf file. # import datetime import optparse import sys from core import constants from core.api import coreapi, dataconversion from core.enumerations import CORE_API_PORT, EventTypes, EventTlvs, LinkTlvs, LinkTypes, MessageFlags from core.misc import ipaddress from core.netns import nodes from core.session import Session # node list (count from 1) n = [None] def main(): usagestr = "usage: %prog [-h] [options] [args]" parser = optparse.OptionParser(usage=usagestr) parser.set_defaults(numnodes=5, slave=None) parser.add_option("-n", "--numnodes", dest="numnodes", type=int, help="number of nodes") parser.add_option("-s", "--slave-server", dest="slave", type=str, help="slave server IP address") def usage(msg=None, err=0): sys.stdout.write("\n") if msg: sys.stdout.write(msg + "\n\n") parser.print_help() sys.exit(err) # parse command line options (options, args) = parser.parse_args() if options.numnodes < 1: usage("invalid number of nodes: %s" % options.numnodes) if not options.slave: usage("slave server IP address (-s) is a required argument") for a in args: sys.stderr.write("ignoring command line argument: '%s'\n" % a) start = datetime.datetime.now() prefix = ipaddress.Ipv4Prefix("10.83.0.0/16") session = Session(1) if 'server' in globals(): server.addsession(session) # distributed setup - connect to slave server slaveport = options.slave.split(':') slave = slaveport[0] if len(slaveport) > 1: port = int(slaveport[1]) else: port = CORE_API_PORT print "connecting to slave at %s:%d" % (slave, port) session.broker.addserver(slave, slave, port) session.broker.setupserver(slave) session.set_state(EventTypes.CONFIGURATION_STATE) tlvdata = coreapi.CoreEventTlv.pack(EventTlvs.TYPE.value, EventTypes.CONFIGURATION_STATE.value) session.broker.handlerawmsg(coreapi.CoreEventMessage.pack(0, tlvdata)) switch = session.add_object(cls=nodes.SwitchNode, name="switch") switch.setposition(x=80, y=50) num_local = options.numnodes / 2 num_remote = options.numnodes / 2 + options.numnodes % 2 print "creating %d (%d local / %d remote) nodes with addresses from %s" % \ (options.numnodes, num_local, num_remote, prefix) for i in xrange(1, num_local + 1): node = session.add_object(cls=nodes.CoreNode, name="n%d" % i, objid=i) node.newnetif(switch, ["%s/%s" % (prefix.addr(i), prefix.prefixlen)]) node.cmd([constants.SYSCTL_BIN, "net.ipv4.icmp_echo_ignore_broadcasts=0"]) node.setposition(x=150 * i, y=150) n.append(node) flags = MessageFlags.ADD.value session.broker.handlerawmsg(switch.tonodemsg(flags=flags)) # create remote nodes via API for i in xrange(num_local + 1, options.numnodes + 1): node = nodes.CoreNode(session=session, objid=i, name="n%d" % i, start=False) node.setposition(x=150 * i, y=150) node.server = slave n.append(node) node_data = node.data(flags) node_message = dataconversion.convert_node(node_data) session.broker.handlerawmsg(node_message) # create remote links via API for i in xrange(num_local + 1, options.numnodes + 1): tlvdata = coreapi.CoreLinkTlv.pack(LinkTlvs.N1_NUMBER.value, switch.objid) tlvdata += coreapi.CoreLinkTlv.pack(LinkTlvs.N2_NUMBER.value, i) tlvdata += coreapi.CoreLinkTlv.pack(LinkTlvs.TYPE.value, LinkTypes.WIRED.value) tlvdata += coreapi.CoreLinkTlv.pack(LinkTlvs.INTERFACE2_NUMBER.value, 0) tlvdata += coreapi.CoreLinkTlv.pack(LinkTlvs.INTERFACE2_IP4.value, prefix.addr(i)) tlvdata += coreapi.CoreLinkTlv.pack(LinkTlvs.INTERFACE2_IP4_MASK.value, prefix.prefixlen) msg = coreapi.CoreLinkMessage.pack(flags, tlvdata) session.broker.handlerawmsg(msg) session.instantiate() tlvdata = coreapi.CoreEventTlv.pack(EventTlvs.TYPE.value, EventTypes.INSTANTIATION_STATE.value) msg = coreapi.CoreEventMessage.pack(0, tlvdata) session.broker.handlerawmsg(msg) # start a shell on node 1 n[1].client.term("bash") print "elapsed time: %s" % (datetime.datetime.now() - start) print "To stop this session, use the 'core-cleanup' script on this server" print "and on the remote slave server." if __name__ == "__main__" or __name__ == "__builtin__": main()