| #! /usr/bin/env python |
| # -*- Mode: python; py-indent-offset: 4; tab-width: 8; indent-tabs-mode: t; -*- |
| |
| import copy |
| import pprint |
| import os |
| import sys |
| import subprocess |
| import json |
| import argparse |
| import io |
| import time |
| |
| from flask import Flask, json, Response, render_template, make_response, request |
| |
| # |
| # curl http://127.0.0.1:8080/wm/topology/route/00:00:00:00:00:00:0a:01/1/00:00:00:00:00:00:0a:04/1/json |
| # |
| |
| ## Global Var ## |
| ControllerIP = "127.0.0.1" |
| ControllerPort = 8080 |
| MonitoringEnabled = False |
| MonitoringByOnos = False |
| ReadFromFile = "" |
| |
| DEBUG=0 |
| pp = pprint.PrettyPrinter(indent=4) |
| |
| app = Flask(__name__) |
| |
| ## Worker Functions ## |
| def log_error(txt): |
| print '%s' % (txt) |
| |
| def debug(txt): |
| if DEBUG: |
| print '%s' % (txt) |
| |
| # @app.route("/wm/topology/route/<srcdpid>/<srcport>/<destdpid>/<destport>/json") |
| # |
| # Sample output: |
| # {'dstPort': {'port': {'value': 0}, 'dpid': {'value': '00:00:00:00:00:00:00:02'}}, 'srcPort': {'port': {'value': 0}, 'dpid': {'value': '00:00:00:00:00:00:00:01'}}, 'flowEntries': [{'outPort': {'value': 1}, 'flowEntryErrorState': None, 'flowEntryMatch': None, 'flowEntryActions': None, 'inPort': {'value': 0}, 'flowEntryId': None, 'flowEntryUserState': 'FE_USER_UNKNOWN', 'dpid': {'value': '00:00:00:00:00:00:00:01'}, 'flowEntrySwitchState': 'FE_SWITCH_UNKNOWN'}, {'outPort': {'value': 0}, 'flowEntryErrorState': None, 'flowEntryMatch': None, 'flowEntryActions': None, 'inPort': {'value': 9}, 'flowEntryId': None, 'flowEntryUserState': 'FE_USER_UNKNOWN', 'dpid': {'value': '00:00:00:00:00:00:00:02'}, 'flowEntrySwitchState': 'FE_SWITCH_UNKNOWN'}]} |
| # |
| def shortest_path(v1, p1, v2, p2): |
| try: |
| command = "curl -s http://%s:%s/wm/topology/route/%s/%s/%s/%s/json" % (ControllerIP, ControllerPort, v1, p1, v2, p2) |
| debug("shortest_path %s" % command) |
| parsedResult = [] |
| |
| result = os.popen(command).read() |
| debug("result %s" % result) |
| if len(result) == 0: |
| log_error("No Path found from %s/%s to %s/%s" % (v1, p1, v2, p2)) |
| else: |
| parsedResult = json.loads(result) |
| debug("parsed %s" % parsedResult) |
| |
| except: |
| log_error("Controller IF has issue: No Path found from %s/%s to %s/%s" % (v1, p1, v2, p2)) |
| |
| return parsedResult |
| |
| def print_data_path(data_path): |
| if len(data_path) == 0: |
| return |
| |
| srcSwitch = data_path['srcPort']['dpid']['value']; |
| srcPort = data_path['srcPort']['port']['value']; |
| dstSwitch = data_path['dstPort']['dpid']['value']; |
| dstPort = data_path['dstPort']['port']['value']; |
| |
| print "DataPath: (src = %s/%s dst = %s/%s)" % (srcSwitch, srcPort, dstSwitch, dstPort); |
| |
| for f in data_path['flowEntries']: |
| inPort = f['inPort']['value']; |
| outPort = f['outPort']['value']; |
| dpid = f['dpid']['value'] |
| print " FlowEntry: (%s, %s, %s)" % (inPort, dpid, outPort) |
| |
| def add_flow_path(flow_path): |
| flow_path_json = json.dumps(flow_path) |
| |
| try: |
| command = "curl -s -H 'Content-Type: application/json' -d '%s' http://%s:%s/wm/flow/add/json" % (flow_path_json, ControllerIP, ControllerPort) |
| debug("add_flow_path %s" % command) |
| result = os.popen(command).read() |
| debug("result %s" % result) |
| # parsedResult = json.loads(result) |
| # debug("parsed %s" % parsedResult) |
| except: |
| log_error("Controller IF has issue") |
| exit(1) |
| |
| def add_shortest_path_flow(flow_path): |
| flow_path_json = json.dumps(flow_path) |
| |
| try: |
| command = "curl -s -H 'Content-Type: application/json' -d '%s' http://%s:%s/wm/flow/add-shortest-path/json" % (flow_path_json, ControllerIP, ControllerPort) |
| debug("add_shortest_path_flow %s" % command) |
| result = os.popen(command).read() |
| debug("result %s" % result) |
| # parsedResult = json.loads(result) |
| # debug("parsed %s" % parsedResult) |
| except: |
| log_error("Controller IF has issue") |
| exit(1) |
| |
| def delete_flow_path(flow_id): |
| command = "curl -s \"http://%s:%s/wm/flow/delete/%s/json\"" % (ControllerIP, ControllerPort, flow_id) |
| debug("delete_flow_path %s" % command) |
| result = os.popen(command).read() |
| debug("result %s" % result) |
| # parsedResult = json.loads(result) |
| # debug("parsed %s" % parsedResult) |
| |
| def extract_flow_args(my_args): |
| # Check the arguments |
| if len(my_args) < 6: |
| log_error(usage_msg) |
| exit(1) |
| |
| # Extract the mandatory arguments |
| my_flow_id = my_args[0] |
| my_installer_id = my_args[1] |
| my_src_dpid = my_args[2] |
| my_src_port = my_args[3] |
| my_dst_dpid = my_args[4] |
| my_dst_port = my_args[5] |
| |
| # |
| # Extract the "match" and "action" arguments |
| # |
| match = {} |
| matchInPortEnabled = True # NOTE: Enabled by default |
| actions = [] |
| actionOutputEnabled = True # NOTE: Enabled by default |
| idx = 6 |
| while idx < len(my_args): |
| action = {} |
| arg1 = my_args[idx] |
| idx = idx + 1 |
| # Extract the second argument |
| if idx >= len(my_args): |
| error_arg = "ERROR: Missing or invalid '" + arg1 + "' argument" |
| log_error(error_arg) |
| log_error(usage_msg) |
| exit(1) |
| arg2 = my_args[idx] |
| idx = idx + 1 |
| |
| if arg1 == "matchInPort": |
| # Just mark whether inPort matching is enabled |
| matchInPortEnabled = arg2 in ['True', 'true'] |
| # inPort = {} |
| # inPort['value'] = int(arg2, 0) |
| # match['inPort'] = inPort |
| ## match['matchInPort'] = True |
| elif arg1 == "matchSrcMac": |
| srcMac = {} |
| srcMac['value'] = arg2 |
| match['srcMac'] = srcMac |
| # match['matchSrcMac'] = True |
| elif arg1 == "matchDstMac": |
| dstMac = {} |
| dstMac['value'] = arg2 |
| match['dstMac'] = dstMac |
| # match['matchDstMac'] = True |
| elif arg1 == "matchVlanId": |
| match['vlanId'] = int(arg2, 0) |
| # match['matchVlanId'] = True |
| elif arg1 == "matchVlanPriority": |
| match['vlanPriority'] = int(arg2, 0) |
| # match['matchVlanPriority'] = True |
| elif arg1 == "matchEthernetFrameType": |
| match['ethernetFrameType'] = int(arg2, 0) |
| # match['matchEthernetFrameType'] = True |
| elif arg1 == "matchIpToS": |
| match['ipToS'] = int(arg2, 0) |
| # match['matchIpToS'] = True |
| elif arg1 == "matchIpProto": |
| match['ipProto'] = int(arg2, 0) |
| # match['matchIpProto'] = True |
| elif arg1 == "matchSrcIPv4Net": |
| srcIPv4Net = {} |
| srcIPv4Net['value'] = arg2 |
| match['srcIPv4Net'] = srcIPv4Net |
| # match['matchSrcIPv4Net'] = True |
| elif arg1 == "matchDstIPv4Net": |
| dstIPv4Net = {} |
| dstIPv4Net['value'] = arg2 |
| match['dstIPv4Net'] = dstIPv4Net |
| # match['matchDstIPv4Net'] = True |
| elif arg1 == "matchSrcTcpUdpPort": |
| match['srcTcpUdpPort'] = int(arg2, 0) |
| # match['matchSrcTcpUdpPort'] = True |
| elif arg1 == "matchDstTcpUdpPort": |
| match['dstTcpUdpPort'] = int(arg2, 0) |
| # match['matchDstTcpUdpPort'] = True |
| elif arg1 == "actionOutput": |
| # Just mark whether ACTION_OUTPUT action is enabled |
| actionOutputEnabled = arg2 in ['True', 'true'] |
| # |
| # TODO: Complete the implementation for ACTION_OUTPUT |
| # actionOutput = {} |
| # outPort = {} |
| # outPort['value'] = int(arg2, 0) |
| # actionOutput['port'] = outPort |
| # actionOutput['maxLen'] = int(arg3, 0) |
| # action['actionOutput'] = actionOutput |
| # # action['actionType'] = 'ACTION_OUTPUT' |
| # actions.append(action) |
| # |
| elif arg1 == "actionSetVlanId": |
| vlanId = {} |
| vlanId['vlanId'] = int(arg2, 0) |
| action['actionSetVlanId'] = vlanId |
| # action['actionType'] = 'ACTION_SET_VLAN_VID' |
| actions.append(copy.deepcopy(action)) |
| elif arg1 == "actionSetVlanPriority": |
| vlanPriority = {} |
| vlanPriority['vlanPriority'] = int(arg2, 0) |
| action['actionSetVlanPriority'] = vlanPriority |
| # action['actionType'] = 'ACTION_SET_VLAN_PCP' |
| actions.append(copy.deepcopy(action)) |
| elif arg1 == "actionSetIpToS": |
| ipToS = {} |
| ipToS['ipToS'] = int(arg2, 0) |
| action['actionSetIpToS'] = ipToS |
| # action['actionType'] = 'ACTION_SET_NW_TOS' |
| actions.append(copy.deepcopy(action)) |
| elif arg1 == "actionSetTcpUdpSrcPort": |
| tcpUdpSrcPort = {} |
| tcpUdpSrcPort['port'] = int(arg2, 0) |
| action['actionSetTcpUdpSrcPort'] = tcpUdpSrcPort |
| # action['actionType'] = 'ACTION_SET_TP_SRC' |
| actions.append(copy.deepcopy(action)) |
| elif arg1 == "actionSetTcpUdpDstPort": |
| tcpUdpDstPort = {} |
| tcpUdpDstPort['port'] = int(arg2, 0) |
| action['actionSetTcpUdpDstPort'] = tcpUdpDstPort |
| # action['actionType'] = 'ACTION_SET_TP_DST' |
| actions.append(copy.deepcopy(action)) |
| elif arg1 == "actionStripVlan": |
| stripVlan = {} |
| stripVlan['stripVlan'] = arg2 in ['True', 'true'] |
| action['actionStripVlan'] = stripVlan |
| # action['actionType'] = 'ACTION_STRIP_VLAN' |
| actions.append(copy.deepcopy(action)) |
| elif arg1 == "actionSetEthernetSrcAddr": |
| ethernetSrcAddr = {} |
| ethernetSrcAddr['value'] = arg2 |
| setEthernetSrcAddr = {} |
| setEthernetSrcAddr['addr'] = ethernetSrcAddr |
| action['actionSetEthernetSrcAddr'] = setEthernetSrcAddr |
| # action['actionType'] = 'ACTION_SET_DL_SRC' |
| actions.append(copy.deepcopy(action)) |
| elif arg1 == "actionSetEthernetDstAddr": |
| ethernetDstAddr = {} |
| ethernetDstAddr['value'] = arg2 |
| setEthernetDstAddr = {} |
| setEthernetDstAddr['addr'] = ethernetDstAddr |
| action['actionSetEthernetDstAddr'] = setEthernetDstAddr |
| # action['actionType'] = 'ACTION_SET_DL_DST' |
| actions.append(copy.deepcopy(action)) |
| elif arg1 == "actionSetIPv4SrcAddr": |
| IPv4SrcAddr = {} |
| IPv4SrcAddr['value'] = arg2 |
| setIPv4SrcAddr = {} |
| setIPv4SrcAddr['addr'] = IPv4SrcAddr |
| action['actionSetIPv4SrcAddr'] = setIPv4SrcAddr |
| # action['actionType'] = 'ACTION_SET_NW_SRC' |
| actions.append(copy.deepcopy(action)) |
| elif arg1 == "actionSetIPv4DstAddr": |
| IPv4DstAddr = {} |
| IPv4DstAddr['value'] = arg2 |
| setIPv4DstAddr = {} |
| setIPv4DstAddr['addr'] = IPv4DstAddr |
| action['actionSetIPv4DstAddr'] = setIPv4DstAddr |
| # action['actionType'] = 'ACTION_SET_NW_DST' |
| actions.append(copy.deepcopy(action)) |
| elif arg1 == "actionEnqueue": |
| # TODO: Implement ACTION_ENQUEUE |
| actionEnqueue = {} |
| # actionEnqueue['queueId'] = int(arg2, 0) |
| # enqueuePort = {} |
| # enqueuePort['value'] = int(arg3, 0) |
| # actionEnqueue['port'] = enqueuePort |
| # action['actionEnqueue'] = actionEnqueue |
| # # action['actionType'] = 'ACTION_ENQUEUE' |
| # actions.append(copy.deepcopy(action)) |
| # |
| else: |
| log_error("ERROR: Unknown argument '%s'" % (arg1)) |
| log_error(usage_msg) |
| exit(1) |
| |
| return { |
| 'my_flow_id' : my_flow_id, |
| 'my_installer_id' : my_installer_id, |
| 'my_src_dpid' : my_src_dpid, |
| 'my_src_port' : my_src_port, |
| 'my_dst_dpid' : my_dst_dpid, |
| 'my_dst_port' : my_dst_port, |
| 'match' : match, |
| 'matchInPortEnabled' : matchInPortEnabled, |
| 'actions' : actions, |
| 'actionOutputEnabled' : actionOutputEnabled |
| } |
| |
| def compute_data_path(parsed_args): |
| |
| my_src_dpid = parsed_args['my_src_dpid'] |
| my_src_port = parsed_args['my_src_port'] |
| my_dst_dpid = parsed_args['my_dst_dpid'] |
| my_dst_port = parsed_args['my_dst_port'] |
| |
| # Compute the shortest path |
| data_path = shortest_path(my_src_dpid, my_src_port, my_dst_dpid, my_dst_port) |
| |
| debug("Data Path: %s" % data_path) |
| return data_path |
| |
| def compute_flow_path(parsed_args, data_path): |
| |
| my_flow_id = parsed_args['my_flow_id'] |
| my_installer_id = parsed_args['my_installer_id'] |
| match = parsed_args['match'] |
| matchInPortEnabled = parsed_args['matchInPortEnabled'] |
| actions = parsed_args['actions'] |
| actionOutputEnabled = parsed_args['actionOutputEnabled'] |
| my_data_path = copy.deepcopy(data_path) |
| |
| flow_id = {} |
| flow_id['value'] = my_flow_id |
| installer_id = {} |
| installer_id['value'] = my_installer_id |
| |
| flow_path = {} |
| flow_path['flowId'] = flow_id |
| flow_path['installerId'] = installer_id |
| |
| if (len(match) > 0): |
| flow_path['flowEntryMatch'] = copy.deepcopy(match) |
| |
| # |
| # Add the match conditions to each flow entry |
| # |
| if (len(match) > 0) or matchInPortEnabled: |
| idx = 0 |
| while idx < len(my_data_path['flowEntries']): |
| if matchInPortEnabled: |
| inPort = my_data_path['flowEntries'][idx]['inPort'] |
| match['inPort'] = copy.deepcopy(inPort) |
| # match['matchInPort'] = True |
| my_data_path['flowEntries'][idx]['flowEntryMatch'] = copy.deepcopy(match) |
| idx = idx + 1 |
| |
| # |
| # Set the actions for each flow entry |
| # NOTE: The actions from the command line are aplied |
| # ONLY to the first flow entry. |
| # |
| # If ACTION_OUTPUT action is enabled, then apply it |
| # to each flow entry. |
| # |
| if (len(actions) > 0) or actionOutputEnabled: |
| idx = 0 |
| while idx < len(my_data_path['flowEntries']): |
| if idx > 0: |
| actions = [] # Reset the actions for all but first entry |
| action = {} |
| outPort = my_data_path['flowEntries'][idx]['outPort'] |
| actionOutput = {} |
| actionOutput['port'] = copy.deepcopy(outPort) |
| # actionOutput['maxLen'] = 0 # TODO: not used for now |
| action['actionOutput'] = copy.deepcopy(actionOutput) |
| # action['actionType'] = 'ACTION_OUTPUT' |
| actions.append(copy.deepcopy(action)) |
| |
| my_data_path['flowEntries'][idx]['flowEntryActions'] = copy.deepcopy(actions) |
| idx = idx + 1 |
| |
| |
| flow_path['dataPath'] = my_data_path |
| debug("Flow Path: %s" % flow_path) |
| return flow_path |
| |
| def exec_monitoring_by_onos(parsed_args): |
| idx = 0 |
| while idx < len(parsed_args): |
| data_path = {} |
| src_dpid = {} |
| src_port = {} |
| dst_dpid = {} |
| dst_port = {} |
| src_switch_port = {} |
| dst_switch_port = {} |
| flow_entries = [] |
| |
| src_dpid['value'] = parsed_args[idx]['my_src_dpid'] |
| src_port['value'] = parsed_args[idx]['my_src_port'] |
| dst_dpid['value'] = parsed_args[idx]['my_dst_dpid'] |
| dst_port['value'] = parsed_args[idx]['my_dst_port'] |
| src_switch_port['dpid'] = src_dpid |
| src_switch_port['port'] = src_port |
| dst_switch_port['dpid'] = dst_dpid |
| dst_switch_port['port'] = dst_port |
| |
| data_path['srcPort'] = copy.deepcopy(src_switch_port) |
| data_path['dstPort'] = copy.deepcopy(dst_switch_port) |
| data_path['flowEntries'] = copy.deepcopy(flow_entries) |
| |
| # |
| # XXX: Explicitly disable the InPort matching, and |
| # the Output action, because they get in the way |
| # during the compute_flow_path() processing. |
| # |
| parsed_args[idx]['matchInPortEnabled'] = False |
| parsed_args[idx]['actionOutputEnabled'] = False |
| |
| flow_path = compute_flow_path(parsed_args[idx], data_path) |
| add_shortest_path_flow(flow_path) |
| |
| idx = idx + 1 |
| |
| |
| def exec_processing_by_script(parsed_args): |
| # |
| # Initialization |
| # |
| last_data_paths = [] |
| idx = 0 |
| while idx < len(parsed_args): |
| last_data_path = [] |
| last_data_paths.append(copy.deepcopy(last_data_path)) |
| idx = idx + 1 |
| |
| # |
| # Do the work: install and/or periodically monitor each flow |
| # |
| while True: |
| idx = 0 |
| while idx < len(parsed_args): |
| last_data_path = last_data_paths[idx] |
| my_flow_id = parsed_args[idx]['my_flow_id'] |
| data_path = compute_data_path(parsed_args[idx]) |
| if data_path != last_data_path: |
| print_data_path(data_path) |
| if len(last_data_path) > 0: |
| delete_flow_path(my_flow_id) |
| if len(data_path) > 0: |
| flow_path = compute_flow_path(parsed_args[idx], data_path) |
| add_flow_path(flow_path) |
| last_data_paths[idx] = copy.deepcopy(data_path) |
| idx = idx + 1 |
| |
| if MonitoringEnabled != True: |
| break |
| time.sleep(1) |
| |
| |
| if __name__ == "__main__": |
| usage_msg = "Usage: %s [Flags] <flow-id> <installer-id> <src-dpid> <src-port> <dest-dpid> <dest-port> [Match Conditions] [Actions]\n" % (sys.argv[0]) |
| usage_msg = usage_msg + "\n" |
| usage_msg = usage_msg + " Flags:\n" |
| usage_msg = usage_msg + " -m [monitorname] Monitor and maintain the installed shortest path(s)\n" |
| usage_msg = usage_msg + " If 'monitorname' is specified and is set to 'ONOS'\n" |
| usage_msg = usage_msg + " ((case insensitive), then the flow generation and\n" |
| usage_msg = usage_msg + " maintanenance is done by ONOS itself.\n" |
| usage_msg = usage_msg + " Otherwise, it is done by this script.\n" |
| usage_msg = usage_msg + " -f <filename> Read the flow(s) to install from a file\n" |
| usage_msg = usage_msg + " File format: one line per flow starting with <flow-id>\n" |
| usage_msg = usage_msg + "\n" |
| usage_msg = usage_msg + " Match Conditions:\n" |
| usage_msg = usage_msg + " matchInPort <True|False> (default to True)\n" |
| usage_msg = usage_msg + " matchSrcMac <source MAC address>\n" |
| usage_msg = usage_msg + " matchDstMac <destination MAC address>\n" |
| usage_msg = usage_msg + " matchSrcIPv4Net <source IPv4 network address>\n" |
| usage_msg = usage_msg + " matchDstIPv4Net <destination IPv4 network address>\n" |
| usage_msg = usage_msg + " matchEthernetFrameType <Ethernet frame type>\n" |
| usage_msg = usage_msg + "\n" |
| usage_msg = usage_msg + " Match Conditions (not implemented yet):\n" |
| usage_msg = usage_msg + " matchVlanId <VLAN ID>\n" |
| usage_msg = usage_msg + " matchVlanPriority <VLAN priority>\n" |
| usage_msg = usage_msg + " matchIpToS <IP ToS (DSCP field, 6 bits)>\n" |
| usage_msg = usage_msg + " matchIpProto <IP protocol>\n" |
| usage_msg = usage_msg + " matchSrcTcpUdpPort <source TCP/UDP port>\n" |
| usage_msg = usage_msg + " matchDstTcpUdpPort <destination TCP/UDP port>\n" |
| usage_msg = usage_msg + "\n" |
| usage_msg = usage_msg + " Actions:\n" |
| usage_msg = usage_msg + " actionOutput <True|False> (default to True)\n" |
| usage_msg = usage_msg + " actionSetEthernetSrcAddr <source MAC address>\n" |
| usage_msg = usage_msg + " actionSetEthernetDstAddr <destination MAC address>\n" |
| usage_msg = usage_msg + " actionSetIPv4SrcAddr <source IPv4 address>\n" |
| usage_msg = usage_msg + " actionSetIPv4DstAddr <destination IPv4 address>\n" |
| usage_msg = usage_msg + "\n" |
| usage_msg = usage_msg + " Actions (not implemented yet):\n" |
| usage_msg = usage_msg + " actionSetVlanId <VLAN ID>\n" |
| usage_msg = usage_msg + " actionSetVlanPriority <VLAN priority>\n" |
| usage_msg = usage_msg + " actionSetIpToS <IP ToS (DSCP field, 6 bits)>\n" |
| usage_msg = usage_msg + " actionSetTcpUdpSrcPort <source TCP/UDP port>\n" |
| usage_msg = usage_msg + " actionSetTcpUdpDstPort <destination TCP/UDP port>\n" |
| usage_msg = usage_msg + " actionStripVlan <True|False>\n" |
| usage_msg = usage_msg + " actionEnqueue <dummy argument>\n" |
| |
| # app.debug = False; |
| |
| # Usage info |
| if len(sys.argv) > 1 and (sys.argv[1] == "-h" or sys.argv[1] == "--help"): |
| print(usage_msg) |
| exit(0) |
| |
| # |
| # Check the flags |
| # |
| start_argv_index = 1 |
| idx = 1 |
| while idx < len(sys.argv): |
| arg1 = sys.argv[idx] |
| idx = idx + 1 |
| if arg1 == "-m": |
| MonitoringEnabled = True |
| if idx < len(sys.argv): |
| arg2 = sys.argv[idx] |
| if arg2.lower() == "onos": |
| MonitoringByOnos = True |
| idx = idx + 1 |
| start_argv_index = idx |
| elif arg1 == "-f": |
| if idx >= len(sys.argv): |
| error_arg = "ERROR: Missing or invalid '" + arg1 + "' argument" |
| log_error(error_arg) |
| log_error(usage_msg) |
| exit(1) |
| ReadFromFile = sys.argv[idx] |
| idx = idx + 1 |
| start_argv_index = idx |
| else: |
| break; |
| |
| # |
| # Read the arguments from a file or from the remaining command line options |
| # |
| my_lines = [] |
| if len(ReadFromFile) > 0: |
| f = open(ReadFromFile, "rt") |
| my_line = f.readline() |
| while my_line: |
| if len(my_line.rstrip()) > 0 and my_line[0] != "#": |
| my_token_line = my_line.rstrip().split() |
| my_lines.append(my_token_line) |
| my_line = f.readline() |
| else: |
| my_lines.append(copy.deepcopy(sys.argv[start_argv_index:])) |
| |
| # |
| # Initialization |
| # |
| last_data_paths = [] |
| parsed_args = [] |
| idx = 0 |
| while idx < len(my_lines): |
| last_data_path = [] |
| last_data_paths.append(copy.deepcopy(last_data_path)) |
| # |
| # Parse the flow arguments |
| # |
| my_args = my_lines[idx] |
| parsed_args.append(copy.deepcopy(extract_flow_args(my_args))) |
| # Cleanup leftover state |
| my_flow_id = parsed_args[idx]['my_flow_id'] |
| delete_flow_path(my_flow_id) |
| |
| idx = idx + 1 |
| |
| # |
| if MonitoringByOnos == True: |
| exec_monitoring_by_onos(parsed_args) |
| else: |
| exec_processing_by_script(parsed_args) |
| |