blob: 38dba5d4eb64e3ea3cbcdba1cae884ec0169034e [file] [log] [blame]
#! /usr/bin/env python
import pprint
import os
import sys
import subprocess
import json
import argparse
import io
import time
import random
import re
from flask import Flask, json, Response, render_template, make_response, request
CONFIG_FILE=os.getenv("HOME") + "/ONOS/web/config.json"
LINK_FILE=os.getenv("HOME") + "/ONOS/web/link.json"
ONOSDIR=os.getenv("HOME") + "/ONOS"
## Global Var for ON.Lab local REST ##
RestIP="localhost"
RestPort=8080
ONOS_DEFAULT_HOST="localhost" ;# Has to set if LB=False
DEBUG=1
pp = pprint.PrettyPrinter(indent=4)
app = Flask(__name__)
def read_config():
global LB, TESTBED, controllers, core_switches, ONOS_GUI3_HOST, ONOS_GUI3_CONTROL_HOST
f = open(CONFIG_FILE)
conf = json.load(f)
LB = conf['LB']
TESTBED = conf['TESTBED']
controllers = conf['controllers']
core_switches=conf['core_switches']
ONOS_GUI3_HOST=conf['ONOS_GUI3_HOST']
ONOS_GUI3_CONTROL_HOST=conf['ONOS_GUI3_CONTROL_HOST']
f.close()
def read_link_def():
global link_def
f=open(LINK_FILE)
try:
link_def=json.load(f)
f.close()
except:
print "Can't read link def file (link.json)"
sys.exit(1)
def get_link_ports(src_dpid, dst_dpid):
ret = (-1, -1)
for link in link_def:
if link['src-switch'] == src_dpid and link['dst-switch'] == dst_dpid:
ret = (link['src-port'], link['dst-port'])
break
return ret
## Worker Functions ##
def log_error(txt):
print '%s' % (txt)
def debug(txt):
if DEBUG:
print '%s' % (txt)
### File Fetch ###
@app.route('/ui/img/<filename>', methods=['GET'])
@app.route('/img/<filename>', methods=['GET'])
@app.route('/css/<filename>', methods=['GET'])
@app.route('/js/models/<filename>', methods=['GET'])
@app.route('/js/views/<filename>', methods=['GET'])
@app.route('/js/<filename>', methods=['GET'])
@app.route('/lib/<filename>', methods=['GET'])
@app.route('/log/<filename>', methods=['GET'])
@app.route('/', methods=['GET'])
@app.route('/<filename>', methods=['GET'])
@app.route('/tpl/<filename>', methods=['GET'])
@app.route('/ons-demo/<filename>', methods=['GET'])
@app.route('/ons-demo/js/<filename>', methods=['GET'])
@app.route('/ons-demo/d3/<filename>', methods=['GET'])
@app.route('/ons-demo/css/<filename>', methods=['GET'])
@app.route('/ons-demo/assets/<filename>', methods=['GET'])
@app.route('/ons-demo/data/<filename>', methods=['GET'])
def return_file(filename="index.html"):
if request.path == "/":
fullpath = "./index.html"
else:
fullpath = str(request.path)[1:]
try:
open(fullpath)
except:
response = make_response("Cannot find a file: %s" % (fullpath), 500)
response.headers["Content-type"] = "text/html"
return response
response = make_response(open(fullpath).read())
suffix = fullpath.split(".")[-1]
if suffix == "html" or suffix == "htm":
response.headers["Content-type"] = "text/html"
elif suffix == "js":
response.headers["Content-type"] = "application/javascript"
elif suffix == "css":
response.headers["Content-type"] = "text/css"
elif suffix == "png":
response.headers["Content-type"] = "image/png"
elif suffix == "svg":
response.headers["Content-type"] = "image/svg+xml"
return response
## Proxy ##
@app.route("/proxy/gui/link/<cmd>/<src_dpid>/<src_port>/<dst_dpid>/<dst_port>")
def proxy_link_change(cmd, src_dpid, src_port, dst_dpid, dst_port):
try:
command = "curl -s %s/gui/link/%s/%s/%s/%s/%s" % (ONOS_GUI3_CONTROL_HOST, cmd, src_dpid, src_port, dst_dpid, dst_port)
print command
result = os.popen(command).read()
except:
print "REST IF has issue"
exit
resp = Response(result, status=200, mimetype='application/json')
return resp
@app.route("/proxy/gui/switchctrl/<cmd>")
def proxy_switch_controller_setting(cmd):
try:
command = "curl -s %s/gui/switchctrl/%s" % (ONOS_GUI3_CONTROL_HOST, cmd)
print command
result = os.popen(command).read()
except:
print "REST IF has issue"
exit
resp = Response(result, status=200, mimetype='application/json')
return resp
@app.route("/proxy/gui/switch/<cmd>/<dpid>")
def proxy_switch_status_change(cmd, dpid):
try:
command = "curl -s %s/gui/switch/%s/%s" % (ONOS_GUI3_CONTROL_HOST, cmd, dpid)
print command
result = os.popen(command).read()
except:
print "REST IF has issue"
exit
resp = Response(result, status=200, mimetype='application/json')
return resp
@app.route("/proxy/gui/controller/<cmd>/<controller_name>")
def proxy_controller_status_change(cmd, controller_name):
try:
command = "curl -s %s/gui/controller/%s/%s" % (ONOS_GUI3_CONTROL_HOST, cmd, controller_name)
print command
result = os.popen(command).read()
except:
print "REST IF has issue"
exit
resp = Response(result, status=200, mimetype='application/json')
return resp
@app.route("/proxy/gui/addflow/<src_dpid>/<src_port>/<dst_dpid>/<dst_port>/<srcMAC>/<dstMAC>")
def proxy_add_flow(src_dpid, src_port, dst_dpid, dst_port, srcMAC, dstMAC):
try:
command = "curl -s %s/gui/addflow/%s/%s/%s/%s/%s/%s" % (ONOS_GUI3_CONTROL_HOST, src_dpid, src_port, dst_dpid, dst_port, srcMAC, dstMAC)
print command
result = os.popen(command).read()
except:
print "REST IF has issue"
exit
resp = Response(result, status=200, mimetype='application/json')
return resp
@app.route("/proxy/gui/delflow/<flow_id>")
def proxy_del_flow(flow_id):
try:
command = "curl -s %s/gui/delflow/%s" % (ONOS_GUI3_CONTROL_HOST, flow_id)
print command
result = os.popen(command).read()
except:
print "REST IF has issue"
exit
resp = Response(result, status=200, mimetype='application/json')
return resp
@app.route("/proxy/gui/iperf/start/<flow_id>/<duration>/<samples>")
def proxy_iperf_start(flow_id,duration,samples):
try:
command = "curl -m 40 -s %s/gui/iperf/start/%s/%s/%s" % (ONOS_GUI3_CONTROL_HOST, flow_id, duration, samples)
print command
result = os.popen(command).read()
except:
print "REST IF has issue"
exit
resp = Response(result, status=200, mimetype='application/json')
return resp
@app.route("/proxy/gui/iperf/rate/<flow_id>")
def proxy_iperf_rate(flow_id):
try:
command = "curl -s %s/gui/iperf/rate/%s" % (ONOS_GUI3_CONTROL_HOST, flow_id)
print command
result = os.popen(command).read()
except:
print "REST IF has issue"
exit
resp = Response(result, status=200, mimetype='application/json')
return resp
@app.route("/proxy/gui/reset")
def proxy_gui_reset():
result = ""
try:
command = "curl -m 300 -s %s/gui/reset" % (ONOS_GUI3_CONTROL_HOST)
print command
result = os.popen(command).read()
except:
print "REST IF has issue"
exit
resp = Response(result, status=200, mimetype='application/json')
return resp
@app.route("/proxy/gui/scale")
def proxy_gui_scale():
result = ""
try:
command = "curl -m 300 -s %s/gui/scale" % (ONOS_GUI3_CONTROL_HOST)
print command
result = os.popen(command).read()
except:
print "REST IF has issue"
exit
resp = Response(result, status=200, mimetype='application/json')
return resp
###### ONOS REST API ##############################
## Worker Func ###
def get_json(url):
code = 200
try:
command = "curl -m 60 -s %s" % (url)
result = os.popen(command).read()
parsedResult = json.loads(result)
if type(parsedResult) == 'dict' and parsedResult.has_key('code'):
print "REST %s returned code %s" % (command, parsedResult['code'])
code=500
except:
print "REST IF %s has issue" % command
result = ""
code = 500
return (code, result)
def pick_host():
if LB == True:
nr_host=len(controllers)
r=random.randint(0, nr_host - 1)
host=controllers[r]
else:
host=ONOS_DEFAULT_HOST
return "http://" + host + ":8080"
## Switch ##
@app.route("/wm/onos/topology/switches/all/json")
def switches():
if request.args.get('proxy') == None:
host = pick_host()
else:
host = ONOS_GUI3_HOST
url ="%s/wm/onos/topology/switches/all/json" % (host)
(code, result) = get_json(url)
resp = Response(result, status=code, mimetype='application/json')
return resp
## Link ##
@app.route("/wm/onos/topology/links/json")
def links():
if request.args.get('proxy') == None:
host = pick_host()
else:
host = ONOS_GUI3_HOST
url ="%s/wm/onos/topology/links/json" % (host)
(code, result) = get_json(url)
resp = Response(result, status=code, mimetype='application/json')
return resp
## FlowSummary ##
@app.route("/wm/onos/flows/getsummary/<start>/<range>/json")
def flows(start, range):
if request.args.get('proxy') == None:
host = pick_host()
else:
host = ONOS_GUI3_HOST
url ="%s/wm/onos/flows/getsummary/%s/%s/json" % (host, start, range)
(code, result) = get_json(url)
resp = Response(result, status=code, mimetype='application/json')
return resp
@app.route("/wm/onos/registry/controllers/json")
def registry_controllers():
if request.args.get('proxy') == None:
host = pick_host()
else:
host = ONOS_GUI3_HOST
url= "%s/wm/onos/registry/controllers/json" % (host)
(code, result) = get_json(url)
resp = Response(result, status=code, mimetype='application/json')
return resp
@app.route("/wm/onos/registry/switches/json")
def registry_switches():
if request.args.get('proxy') == None:
host = pick_host()
else:
host = ONOS_GUI3_HOST
url="%s/wm/onos/registry/switches/json" % (host)
(code, result) = get_json(url)
resp = Response(result, status=code, mimetype='application/json')
return resp
def node_id(switch_array, dpid):
id = -1
for i, val in enumerate(switch_array):
if val['name'] == dpid:
id = i
break
return id
## API for ON.Lab local GUI ##
@app.route('/topology', methods=['GET'])
def topology_for_gui():
try:
command = "curl -s \'http://%s:%s/wm/onos/topology/switches/all/json\'" % (RestIP, RestPort)
result = os.popen(command).read()
parsedResult = json.loads(result)
except:
log_error("REST IF has issue: %s" % command)
log_error("%s" % result)
return
# sys.exit(0)
topo = {}
switches = []
links = []
devices = []
for v in parsedResult:
if v.has_key('dpid'):
# if v.has_key('dpid') and str(v['state']) == "ACTIVE":#;if you want only ACTIVE nodes
dpid = str(v['dpid'])
state = str(v['state'])
sw = {}
sw['name']=dpid
sw['group']= -1
if state == "INACTIVE":
sw['group']=0
switches.append(sw)
try:
command = "curl -s \'http://%s:%s/wm/onos/registry/switches/json\'" % (RestIP, RestPort)
result = os.popen(command).read()
parsedResult = json.loads(result)
except:
log_error("REST IF has issue: %s" % command)
log_error("%s" % result)
for key in parsedResult:
dpid = key
ctrl = parsedResult[dpid][0]['controllerId']
sw_id = node_id(switches, dpid)
if sw_id != -1:
if switches[sw_id]['group'] != 0:
switches[sw_id]['group'] = controllers.index(ctrl) + 1
# try:
# v1 = "00:00:00:00:00:0a:0d:00"
# v1 = "00:00:00:00:00:0d:00:d1"
# p1=1
# v2 = "00:00:00:00:00:0b:0d:03"
# v2 = "00:00:00:00:00:0d:00:d3"
# p2=1
# command = "curl -s http://%s:%s/wm/onos/topology/route/%s/%s/%s/%s/json" % (RestIP, RestPort, v1, p1, v2, p2)
# result = os.popen(command).read()
# parsedResult = json.loads(result)
# except:
# log_error("No route")
# parsedResult = {}
#path = []
#if parsedResult.has_key('flowEntries'):
# flowEntries= parsedResult['flowEntries']
# for i, v in enumerate(flowEntries):
# if i < len(flowEntries) - 1:
# sdpid= flowEntries[i]['dpid']['value']
# ddpid = flowEntries[i+1]['dpid']['value']
# path.append( (sdpid, ddpid))
try:
command = "curl -s \'http://%s:%s/wm/onos/topology/links/json\'" % (RestIP, RestPort)
result = os.popen(command).read()
parsedResult = json.loads(result)
except:
log_error("REST IF has issue: %s" % command)
log_error("%s" % result)
return
# sys.exit(0)
for v in parsedResult:
link = {}
if v.has_key('dst-switch'):
dst_dpid = str(v['dst-switch'])
dst_id = node_id(switches, dst_dpid)
if v.has_key('src-switch'):
src_dpid = str(v['src-switch'])
src_id = node_id(switches, src_dpid)
link['source'] = src_id
link['target'] = dst_id
#onpath = 0
#for (s,d) in path:
# if s == v['src-switch'] and d == v['dst-switch']:
# onpath = 1
# break
#link['type'] = onpath
links.append(link)
topo['nodes'] = switches
topo['links'] = links
js = json.dumps(topo)
resp = Response(js, status=200, mimetype='application/json')
return resp
#@app.route("/wm/floodlight/topology/toporoute/00:00:00:00:00:a1/2/00:00:00:00:00:c1/3/json")
#@app.route("/wm/floodlight/topology/toporoute/<srcdpid>/<srcport>/<destdpid>/<destport>/json")
@app.route("/wm/floodlight/topology/toporoute/<v1>/<p1>/<v2>/<p2>/json")
def shortest_path(v1, p1, v2, p2):
try:
command = "curl -s \'http://%s:%s/wm/onos/topology/switches/all/json\'" % (RestIP, RestPort)
result = os.popen(command).read()
parsedResult = json.loads(result)
except:
log_error("REST IF has issue: %s" % command)
log_error("%s" % result)
return
# sys.exit(0)
topo = {}
switches = []
links = []
for v in parsedResult:
if v.has_key('dpid'):
dpid = str(v['dpid'])
state = str(v['state'])
sw = {}
sw['name']=dpid
if str(v['state']) == "ACTIVE":
if dpid[-2:-1] == "a":
sw['group']=1
if dpid[-2:-1] == "b":
sw['group']=2
if dpid[-2:-1] == "c":
sw['group']=3
if str(v['state']) == "INACTIVE":
sw['group']=0
switches.append(sw)
try:
command = "curl -s http://%s:%s/wm/onos/topology/route/%s/%s/%s/%s/json" % (RestIP, RestPort, v1, p1, v2, p2)
result = os.popen(command).read()
parsedResult = json.loads(result)
except:
log_error("No route")
parsedResult = []
# exit(1)
path = [];
for i, v in enumerate(parsedResult):
if i < len(parsedResult) - 1:
sdpid= parsedResult[i]['switch']
ddpid = parsedResult[i+1]['switch']
path.append( (sdpid, ddpid))
try:
command = "curl -s \'http://%s:%s/wm/onos/topology/links/json\'" % (RestIP, RestPort)
result = os.popen(command).read()
parsedResult = json.loads(result)
except:
log_error("REST IF has issue: %s" % command)
log_error("%s" % result)
return
# sys.exit(0)
for v in parsedResult:
link = {}
if v.has_key('dst-switch'):
dst_dpid = str(v['dst-switch'])
dst_id = node_id(switches, dst_dpid)
if v.has_key('src-switch'):
src_dpid = str(v['src-switch'])
src_id = node_id(switches, src_dpid)
link['source'] = src_id
link['target'] = dst_id
onpath = 0
for (s,d) in path:
if s == v['src-switch'] and d == v['dst-switch']:
onpath = 1
break
link['type'] = onpath
links.append(link)
topo['nodes'] = switches
topo['links'] = links
js = json.dumps(topo)
resp = Response(js, status=200, mimetype='application/json')
return resp
@app.route("/wm/floodlight/core/controller/switches/json")
def query_switch():
try:
command = "curl -s \'http://%s:%s/wm/onos/topology/switches/all/json\'" % (RestIP, RestPort)
# http://localhost:8080/wm/onos/topology/switches/active/json
print command
result = os.popen(command).read()
parsedResult = json.loads(result)
except:
log_error("REST IF has issue: %s" % command)
log_error("%s" % result)
return
# sys.exit(0)
# print command
# print result
switches_ = []
for v in parsedResult:
if v.has_key('dpid'):
if v.has_key('dpid') and str(v['state']) == "ACTIVE":#;if you want only ACTIVE nodes
dpid = str(v['dpid'])
state = str(v['state'])
sw = {}
sw['dpid']=dpid
sw['active']=state
switches_.append(sw)
# pp.pprint(switches_)
js = json.dumps(switches_)
resp = Response(js, status=200, mimetype='application/json')
return resp
@app.route("/wm/floodlight/device/")
def devices():
try:
command = "curl -s http://%s:%s/graphs/%s/vertices\?key=type\&value=device" % (RestIP, RestPort, DBName)
result = os.popen(command).read()
parsedResult = json.loads(result)['results']
except:
log_error("REST IF has issue: %s" % command)
log_error("%s" % result)
return
# sys.exit(0)
devices = []
for v in parsedResult:
dl_addr = v['dl_addr']
nw_addr = v['nw_addr']
vertex = v['_id']
mac = []
mac.append(dl_addr)
ip = []
ip.append(nw_addr)
device = {}
device['entryClass']="DefaultEntryClass"
device['mac']=mac
device['ipv4']=ip
device['vlan']=[]
device['lastSeen']=0
attachpoints =[]
port, dpid = deviceV_to_attachpoint(vertex)
attachpoint = {}
attachpoint['port']=port
attachpoint['switchDPID']=dpid
attachpoints.append(attachpoint)
device['attachmentPoint']=attachpoints
devices.append(device)
js = json.dumps(devices)
resp = Response(js, status=200, mimetype='application/json')
return resp
#{"entityClass":"DefaultEntityClass","mac":["7c:d1:c3:e0:8c:a3"],"ipv4":["192.168.2.102","10.1.10.35"],"vlan":[],"attachmentPoint":[{"port":13,"switchDPID":"00:01:00:12:e2:78:32:44","errorStatus":null}],"lastSeen":1357333593496}
## return fake stat for now
@app.route("/wm/floodlight/core/switch/<switchId>/<statType>/json")
def switch_stat(switchId, statType):
if statType == "desc":
desc=[{"length":1056,"serialNumber":"None","manufacturerDescription":"Nicira Networks, Inc.","hardwareDescription":"Open vSwitch","softwareDescription":"1.4.0+build0","datapathDescription":"None"}]
ret = {}
ret[switchId]=desc
elif statType == "aggregate":
aggr = {"packetCount":0,"byteCount":0,"flowCount":0}
ret = {}
ret[switchId]=aggr
else:
ret = {}
js = json.dumps(ret)
resp = Response(js, status=200, mimetype='application/json')
return resp
@app.route("/wm/onos/linkdiscovery/links/json")
def query_links():
try:
command = 'curl -s http://%s:%s/graphs/%s/vertices?key=type\&value=port' % (RestIP, RestPort, DBName)
print command
result = os.popen(command).read()
parsedResult = json.loads(result)['results']
except:
log_error("REST IF has issue: %s" % command)
log_error("%s" % result)
return
# sys.exit(0)
debug("query_links %s" % command)
# pp.pprint(parsedResult)
sport = []
links = []
for v in parsedResult:
srcport = v['_id']
try:
command = "curl -s http://%s:%s/graphs/%s/vertices/%d/out?_label=link" % (RestIP, RestPort, DBName, srcport)
print command
result = os.popen(command).read()
linkResults = json.loads(result)['results']
except:
log_error("REST IF has issue: %s" % command)
log_error("%s" % result)
return
# sys.exit(0)
for p in linkResults:
if p.has_key('type') and p['type'] == "port":
dstport = p['_id']
(sport, sdpid) = portV_to_port_dpid(srcport)
(dport, ddpid) = portV_to_port_dpid(dstport)
link = {}
link["src-switch"]=sdpid
link["src-port"]=sport
link["src-port-state"]=0
link["dst-switch"]=ddpid
link["dst-port"]=dport
link["dst-port-state"]=0
link["type"]="internal"
links.append(link)
# pp.pprint(links)
js = json.dumps(links)
resp = Response(js, status=200, mimetype='application/json')
return resp
@app.route("/controller_status")
def controller_status():
# onos_check="ssh -i ~/.ssh/onlabkey.pem %s ONOS/start-onos.sh status | awk '{print $1}'"
onos_check="cd; onos status | grep %s | awk '{print $2}'"
#cassandra_check="ssh -i ~/.ssh/onlabkey.pem %s ONOS/start-cassandra.sh status"
cont_status=[]
for i in controllers:
status={}
onos=os.popen(onos_check % i).read()[:-1]
# onos=os.popen(onos_check % (i, i.lower())).read()[:-1]
status["name"]=i
status["onos"]=onos
status["cassandra"]=0
cont_status.append(status)
js = json.dumps(cont_status)
resp = Response(js, status=200, mimetype='application/json')
return resp
### Command ###
@app.route("/gui/controller/<cmd>/<controller_name>")
def controller_status_change(cmd, controller_name):
if (TESTBED == "hw"):
start_onos="/home/admin/bin/onos start %s" % (controller_name[-1:])
# start_onos="/home/admin/bin/onos start %s > /tmp/debug " % (controller_name[-1:])
stop_onos="/home/admin/bin/onos stop %s" % (controller_name[-1:])
# stop_onos="/home/admin/bin/onos stop %s > /tmp/debug " % (controller_name[-1:])
# print "Debug: Controller command %s called %s" % (cmd, controller_name)
else:
# No longer use -i to specify keys (use .ssh/config to specify it)
start_onos="ssh %s \"cd ONOS; ./start-onos.sh start\"" % (controller_name)
stop_onos="ssh %s \"cd ONOS; ./start-onos.sh stop\"" % (controller_name)
# start_onos="ssh -i ~/.ssh/onlabkey.pem %s ONOS/start-onos.sh start" % (controller_name)
# stop_onos="ssh -i ~/.ssh/onlabkey.pem %s ONOS/start-onos.sh stop" % (controller_name)
if cmd == "up":
result=os.popen(start_onos).read()
ret = "controller %s is up: %s" % (controller_name, result)
elif cmd == "down":
result=os.popen(stop_onos).read()
ret = "controller %s is down: %s" % (controller_name, result)
return ret
@app.route("/gui/switchctrl/<cmd>")
def switch_controller_setting(cmd):
if cmd =="local":
print "All aggr switches connects to local controller only"
result=""
if (TESTBED == "sw"):
for i in range(1, len(controllers)):
cmd_string="ssh %s 'cd ONOS/scripts; ./ctrl-local.sh'" % (controllers[i])
result += os.popen(cmd_string).read()
else:
cmd_string="cd; switch local > /tmp/watch"
result += os.popen(cmd_string).read()
elif cmd =="all":
print "All aggr switches connects to all controllers except for core controller"
result=""
if (TESTBED == "sw"):
for i in range(1, len(controllers)):
cmd_string="ssh %s 'cd ONOS/scripts; ./ctrl-add-ext.sh'" % (controllers[i])
# cmd_string="ssh -i ~/.ssh/onlabkey.pem %s 'cd ONOS/scripts; ./ctrl-add-ext.sh'" % (controllers[i])
print "cmd is: "+cmd_string
result += os.popen(cmd_string).read()
else:
cmd_string="/home/admin/bin/switch all > /tmp/watch"
result += os.popen(cmd_string).read()
return result
@app.route("/gui/reset")
def reset_demo():
if (TESTBED == "hw"):
cmd_string="cd ~/bin; ./demo-reset-hw.sh > /tmp/watch &"
else:
cmd_string="cd ~/ONOS/scripts; ./demo-reset-sw.sh > /tmp/watch &"
os.popen(cmd_string)
return "Reset"
@app.route("/gui/scale")
def scale_demo():
if (TESTBED == "hw"):
cmd_string="cd ~/bin; ~/bin/demo-scale-out-hw.sh > /tmp/watch &"
else:
cmd_string="cd ~/ONOS/scripts; ./demo-scale-out-sw.sh > /tmp/watch &"
os.popen(cmd_string)
return "scale"
@app.route("/gui/switch/<cmd>/<dpid>")
def switch_status_change(cmd, dpid):
result = ""
if (TESTBED == "hw"):
return result
r = re.compile(':')
dpid = re.sub(r, '', dpid)
host=controllers[0]
cmd_string="ssh %s 'cd ONOS/scripts; ./switch.sh %s %s'" % (host, dpid, cmd)
# cmd_string="ssh -i ~/.ssh/onlabkey.pem %s 'cd ONOS/scripts; ./switch.sh %s %s'" % (host, dpid, cmd)
get_status="ssh -i ~/.ssh/onlabkey.pem %s 'cd ONOS/scripts; ./switch.sh %s'" % (host, dpid)
print "cmd_string"
if cmd =="up" or cmd=="down":
print "make dpid %s %s" % (dpid, cmd)
os.popen(cmd_string)
result=os.popen(get_status).read()
return result
#* Link Up
#http://localhost:9000/gui/link/up/<src_dpid>/<src_port>/<dst_dpid>/<dst_port>
@app.route("/gui/link/up/<src_dpid>/<src_port>/<dst_dpid>/<dst_port>")
def link_up(src_dpid, src_port, dst_dpid, dst_port):
result = ""
if (TESTBED == "sw"):
result = link_up_sw(src_dpid, src_port, dst_dpid, dst_port)
else:
result = link_up_hw(src_dpid, src_port, dst_dpid, dst_port)
return result
# Link up on software testbed
def link_up_sw(src_dpid, src_port, dst_dpid, dst_port):
cmd = 'up'
result=""
for dpid in (src_dpid, dst_dpid):
if dpid in core_switches:
host = controllers[0]
else:
hostid=int(dpid.split(':')[-2])
host = controllers[hostid-1]
if dpid == src_dpid:
(port, dontcare) = get_link_ports(dpid, dst_dpid)
else:
(port, dontcare) = get_link_ports(dpid, src_dpid)
# cmd_string="ssh -i ~/.ssh/onlabkey.pem %s 'cd ONOS/scripts; ./link.sh %s %s %s'" % (host, dpid, port, cmd)
cmd_string="ssh %s 'cd ONOS/scripts; ./link.sh %s %s %s'" % (host, dpid, port, cmd)
print cmd_string
res=os.popen(cmd_string).read()
result = result + ' ' + res
return result
# if hostid == 2 :
# src_ports = [51]
# else :
# src_ports = [26]
#
# for port in src_ports :
# cmd_string="ssh -i ~/.ssh/onlabkey.pem %s 'cd ONOS/scripts; ./link.sh %s %s %s'" % (host, dpid, port, cmd)
# print cmd_string
# res=os.popen(cmd_string).read()
# Link up on hardware testbed
def link_up_hw(src_dpid, src_port, dst_dpid, dst_port):
port1 = src_port
port2 = dst_port
if src_dpid == "00:00:00:00:ba:5e:ba:11":
if dst_dpid == "00:00:00:08:a2:08:f9:01":
port1 = 24
port2 = 24
elif dst_dpid == "00:01:00:16:97:08:9a:46":
port1 = 23
port2 = 23
elif src_dpid == "00:00:00:00:ba:5e:ba:13":
if dst_dpid == "00:00:20:4e:7f:51:8a:35":
port1 = 22
port2 = 22
elif dst_dpid == "00:00:00:00:00:00:ba:12":
port1 = 23
port2 = 23
elif src_dpid == "00:00:00:00:00:00:ba:12":
if dst_dpid == "00:00:00:00:ba:5e:ba:13":
port1 = 23
port2 = 23
elif dst_dpid == "00:00:00:08:a2:08:f9:01":
port1 = 22
port2 = 22
elif dst_dpid == "00:00:20:4e:7f:51:8a:35":
port1 = 24
port2 = 21
elif src_dpid == "00:01:00:16:97:08:9a:46":
if dst_dpid == "00:00:00:00:ba:5e:ba:11":
port1 = 23
port2 = 23
elif dst_dpid == "00:00:20:4e:7f:51:8a:35":
port1 = 24
port2 = 24
elif src_dpid == "00:00:00:08:a2:08:f9:01":
if dst_dpid == "00:00:00:00:ba:5e:ba:11":
port1 = 24
port2 = 24
elif dst_dpid == "00:00:00:00:00:00:ba:12":
port1 = 22
port2 = 22
elif dst_dpid == "00:00:20:4e:7f:51:8a:35":
port1 = 23
port2 = 23
elif src_dpid == "00:00:20:4e:7f:51:8a:35":
if dst_dpid == "00:00:00:00:00:00:ba:12":
port1 = 21
port2 = 24
elif dst_dpid == "00:00:00:00:ba:5e:ba:13":
port1 = 22
port2 = 22
elif dst_dpid == "00:01:00:16:97:08:9a:46":
port1 = 24
port2 = 24
elif dst_dpid == "00:00:00:08:a2:08:f9:01":
port1 = 23
port2 = 23
cmd = 'up'
result=""
host = controllers[0]
cmd_string="~/ONOS/scripts/link-hw.sh %s %s %s " % (src_dpid, port1, cmd)
print cmd_string
res=os.popen(cmd_string).read()
result = result + ' ' + res
cmd_string="~/ONOS/scripts/link-hw.sh %s %s %s " % (dst_dpid, port2, cmd)
print cmd_string
res=os.popen(cmd_string).read()
result = result + ' ' + res
return result
#* Link Down
#http://localhost:9000/gui/link/down/<src_dpid>/<src_port>/<dst_dpid>/<dst_port>
@app.route("/gui/link/<cmd>/<src_dpid>/<src_port>/<dst_dpid>/<dst_port>")
def link_down(cmd, src_dpid, src_port, dst_dpid, dst_port):
if src_dpid in core_switches:
host = controllers[0]
else:
hostid=int(src_dpid.split(':')[-2])
host = controllers[hostid-1]
if (TESTBED == "sw"):
cmd_string="ssh %s 'cd ONOS/scripts; ./link.sh %s %s %s'" % (host, src_dpid, src_port, cmd)
else:
if ( src_dpid == "00:00:00:08:a2:08:f9:01" ):
cmd_string="~/ONOS/scripts/link-hw.sh %s %s %s " % ( dst_dpid, dst_port, cmd)
else:
cmd_string="~/ONOS/scripts/link-hw.sh %s %s %s " % ( src_dpid, src_port, cmd)
print cmd_string
result=os.popen(cmd_string).read()
return result
#* Create Flow
#http://localhost:9000/gui/addflow/<src_dpid>/<src_port>/<dst_dpid>/<dst_port>/<srcMAC>/<dstMAC>
#1 FOOBAR 00:00:00:00:00:00:01:01 1 00:00:00:00:00:00:01:0b 1 matchSrcMac 00:00:00:00:00:00 matchDstMac 00:01:00:00:00:00
@app.route("/gui/addflow/<src_dpid>/<src_port>/<dst_dpid>/<dst_port>/<srcMAC>/<dstMAC>")
def add_flow(src_dpid, src_port, dst_dpid, dst_port, srcMAC, dstMAC):
host = pick_host()
url ="%s/wm/onos/flows/getsummary/%s/%s/json" % (host, 0, 0)
(code, result) = get_json(url)
parsedResult = json.loads(result)
if len(parsedResult) > 0:
if parsedResult[-1].has_key('flowId'):
flow_nr = int(parsedResult[-1]['flowId']['value'], 16)
else:
flow_nr = -1 # first flow
print "first flow"
flow_nr += 1
command = "%s/web/add_flow.py -m onos %d %s %s %s %s %s matchSrcMac %s matchDstMac %s" % (ONOSDIR, flow_nr, "dummy", src_dpid, src_port, dst_dpid, dst_port, srcMAC, dstMAC)
flow_nr += 1
command1 = "%s/web/add_flow.py -m onos %d %s %s %s %s %s matchSrcMac %s matchDstMac %s" % (ONOSDIR, flow_nr, "dummy", dst_dpid, dst_port, src_dpid, src_port, dstMAC, srcMAC)
print "add flow: %s, %s" % (command, command1)
errcode = os.popen(command).read()
errcode1 = os.popen(command1).read()
ret=command+":"+errcode+" "+command1+":"+errcode1
print ret
return ret
#* Delete Flow
#http://localhost:9000/gui/delflow/<flow_id>
@app.route("/gui/delflow/<flow_id>")
def del_flow(flow_id):
command = "%/web/delete_flow.py %s" % (ONOSDIR, flow_id)
print command
errcode = os.popen(command).read()
return errcode
#* Start Iperf Througput
#http://localhost:9000/gui/iperf/start/<flow_id>/<duration>
@app.route("/gui/iperf/start/<flow_id>/<duration>/<samples>")
def iperf_start(flow_id,duration,samples):
try:
command = "curl -s \'http://%s:%s/wm/onos/flows/get/%s/json\'" % (RestIP, RestPort, flow_id)
print command
result = os.popen(command).read()
if len(result) == 0:
print "No Flow found"
return "Flow %s not found" % (flow_id);
except:
print "REST IF has issue"
return "REST IF has issue"
exit
parsedResult = json.loads(result)
flowId = int(parsedResult['flowId']['value'], 16)
src_dpid = parsedResult['dataPath']['srcPort']['dpid']['value']
src_port = parsedResult['dataPath']['srcPort']['port']['value']
dst_dpid = parsedResult['dataPath']['dstPort']['dpid']['value']
dst_port = parsedResult['dataPath']['dstPort']['port']['value']
# print "FlowPath: (flowId = %s src = %s/%s dst = %s/%s" % (flowId, src_dpid, src_port, dst_dpid, dst_port)
if src_dpid in core_switches:
src_host = controllers[0]
else:
hostid=int(src_dpid.split(':')[-2])
if TESTBED == "hw":
src_host = "mininet%i" % hostid
else:
src_host = controllers[hostid-1]
if dst_dpid in core_switches:
dst_host = controllers[0]
else:
hostid=int(dst_dpid.split(':')[-2])
if TESTBED == "hw":
dst_host = "mininet%i" % hostid
else:
dst_host = controllers[hostid-1]
# /runiperf.sh <flowid> <src_dpid> <dst_dpid> hw:svr|sw:svr|hw:client|sw:client <proto>/<duration>/<interval>/<samples>
protocol="udp"
interval=0.1
if TESTBED == "hw":
cmd_string="dsh -w %s 'cd ONOS/scripts; " % dst_host
else:
cmd_string="ssh %s 'cd ONOS/scripts; " % dst_host
cmd_string += "./runiperf.sh %d %s %s %s:%s %s/%s/%s/%s'" % (flowId, src_dpid, dst_dpid, TESTBED, "svr", protocol, duration, interval, samples)
print cmd_string
os.popen(cmd_string)
if TESTBED == "hw":
cmd_string="dsh -w %s 'cd ONOS/scripts; " % src_host
else:
cmd_string="ssh %s 'cd ONOS/scripts;" % src_host
cmd_string+="./runiperf.sh %d %s %s %s:%s %s/%s/%s/%s'" % (flowId, src_dpid, dst_dpid, TESTBED, "client", protocol, duration, interval, samples)
print cmd_string
os.popen(cmd_string)
return cmd_string
#* Get Iperf Throughput
#http://localhost:9000/gui/iperf/rate/<flow_id>
@app.route("/gui/iperf/rate/<flow_id>")
def iperf_rate(flow_id):
try:
command = "curl -s \'http://%s:%s/wm/onos/flows/get/%s/json\'" % (RestIP, RestPort, flow_id)
print command
result = os.popen(command).read()
if len(result) == 0:
resp = Response(result, status=400, mimetype='text/html')
return "no such iperf flow (flowid %s)" % flow_id;
except:
print "REST IF has issue"
exit
parsedResult = json.loads(result)
flowId = int(parsedResult['flowId']['value'], 16)
src_dpid = parsedResult['dataPath']['srcPort']['dpid']['value']
src_port = parsedResult['dataPath']['srcPort']['port']['value']
dst_dpid = parsedResult['dataPath']['dstPort']['dpid']['value']
dst_port = parsedResult['dataPath']['dstPort']['port']['value']
if dst_dpid in core_switches:
host = controllers[0]
else:
hostid=int(dst_dpid.split(':')[-2])
if TESTBED == "hw":
host = "mininet%i" % hostid
else:
host = controllers[hostid-1]
try:
command = "curl -s http://%s:%s/log/iperfsvr_%s.out" % (host, 9000, flow_id)
print command
result = os.popen(command).read()
except:
exit
if re.match("Cannot", result):
resp = Response(result, status=400, mimetype='text/html')
return "no iperf file found (host %s flowid %s): %s" % (host, flow_id, result)
else:
resp = Response(result, status=200, mimetype='application/json')
return resp
if __name__ == "__main__":
random.seed()
read_config()
read_link_def()
if len(sys.argv) > 1 and sys.argv[1] == "-d":
# add_flow("00:00:00:00:00:00:02:02", 1, "00:00:00:00:00:00:03:02", 1, "00:00:00:00:02:02", "00:00:00:00:03:0c")
# link_change("up", "00:00:00:00:ba:5e:ba:11", 1, "00:00:00:00:00:00:00:00", 1)
# link_change("down", "00:00:20:4e:7f:51:8a:35", 1, "00:00:00:00:00:00:00:00", 1)
# link_change("up", "00:00:00:00:00:00:02:03", 1, "00:00:00:00:00:00:00:00", 1)
# link_change("down", "00:00:00:00:00:00:07:12", 1, "00:00:00:00:00:00:00:00", 1)
# print "-- query all switches --"
# query_switch()
# print "-- query topo --"
# topology_for_gui()
# link_change(1,2,3,4)
print "-- query all links --"
# query_links()
# print "-- query all devices --"
# devices()
# iperf_start(1,10,15)
# iperf_rate(1)
# switches()
# add_flow(1,2,3,4,5,6)
reset_demo()
else:
app.debug = True
app.run(threaded=True, host="0.0.0.0", port=9000)