tools/dev/mininet/bmv2.py - onos - Gitiles

 import os
 import socket
 import re
 import json
 import threading
 import urllib2

 import time
 from contextlib import closing

 from mininet.log import info, warn, error
 from mininet.node import Switch, Host

 SIMPLE_SWITCH_GRPC = 'simple_switch_grpc'
 PKT_BYTES_TO_DUMP = 80
 VALGRIND_PREFIX = 'valgrind --leak-check=yes'
 SWITCH_START_TIMEOUT = 5  # seconds
 BMV2_LOG_LINES = 5
 BMV2_DEFAULT_DEVICE_ID = 0


 def parseBoolean(value):
     if value in ['1', 1, 'true', 'True']:
         return True
     else:
         return False


 def pickUnusedPort():
     s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
     s.bind(('localhost', 0))
     addr, port = s.getsockname()
     s.close()
     return port


 def writeToFile(path, value):
     with open(path, "w") as f:
         f.write(str(value))


 def watchDog(sw):
     while True:
         if sw.stopped:
             return
         with closing(socket.socket(socket.AF_INET, socket.SOCK_STREAM)) as s:
             if s.connect_ex(('127.0.0.1', sw.grpcPort)) == 0:
                 time.sleep(1)
             else:
                 warn("\n*** WARN: BMv2 instance %s (%s) died!\n"
                      % (sw.deviceId, sw.name))
                 sw.printBmv2Log()
                 print ("-" * 80) + "\n"
                 return


 class ONOSHost(Host):
     def __init__(self, name, inNamespace=True, **params):
         Host.__init__(self, name, inNamespace=inNamespace, **params)

     def config(self, **params):
         r = super(Host, self).config(**params)
         for off in ["rx", "tx", "sg"]:
             cmd = "/sbin/ethtool --offload %s %s off" \
                   % (self.defaultIntf(), off)
             self.cmd(cmd)
         # disable IPv6
         self.cmd("sysctl -w net.ipv6.conf.all.disable_ipv6=1")
         self.cmd("sysctl -w net.ipv6.conf.default.disable_ipv6=1")
         self.cmd("sysctl -w net.ipv6.conf.lo.disable_ipv6=1")
         return r


 class ONOSBmv2Switch(Switch):
     """BMv2 software switch with gRPC server"""

     def __init__(self, name, json=None, debugger=False, loglevel="warn",
                  elogger=False, grpcport=None, cpuport=255,
                  thriftport=None, netcfg=True, dryrun=False, pipeconf="",
                  pktdump=False, valgrind=False, gnmi=False,
                  portcfg=True, onosdevid=None, **kwargs):
         Switch.__init__(self, name, **kwargs)
         self.grpcPort = pickUnusedPort() if not grpcport else grpcport
         self.thriftPort = pickUnusedPort() if not thriftport else thriftport
         self.cpuPort = cpuport
         self.json = json
         self.debugger = parseBoolean(debugger)
         self.loglevel = loglevel
         # Important: Mininet removes all /tmp/*.log files in case of exceptions.
         # We want to be able to see the bmv2 log if anything goes wrong, hence
         # avoid the .log extension.
         self.logfile = '/tmp/bmv2-%s-log' % self.name
         self.elogger = parseBoolean(elogger)
         self.pktdump = parseBoolean(pktdump)
         self.netcfg = parseBoolean(netcfg)
         self.dryrun = parseBoolean(dryrun)
         self.valgrind = parseBoolean(valgrind)
         self.netcfgfile = '/tmp/bmv2-%s-netcfg.json' % self.name
         self.pipeconfId = pipeconf
         self.injectPorts = parseBoolean(portcfg)
         self.withGnmi = parseBoolean(gnmi)
         self.longitude = kwargs['longitude'] if 'longitude' in kwargs else None
         self.latitude = kwargs['latitude'] if 'latitude' in kwargs else None
         if onosdevid is not None and len(onosdevid) > 0:
             self.onosDeviceId = onosdevid
         else:
             self.onosDeviceId = "device:bmv2:%s" % self.name
         self.logfd = None
         self.bmv2popen = None
         self.stopped = False

         # Remove files from previous executions
         self.cleanupTmpFiles()

         writeToFile("/tmp/bmv2-%s-grpc-port" % self.name, self.grpcPort)
         writeToFile("/tmp/bmv2-%s-thrift-port" % self.name, self.thriftPort)

     def getSourceIp(self, dstIP):
         """
         Queries the Linux routing table to get the source IP that can talk with
         dstIP, and vice versa.
         """
         ipRouteOut = self.cmd('ip route get %s' % dstIP)
         r = re.search(r"src (\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3})", ipRouteOut)
         return r.group(1) if r else None

     def getDeviceConfig(self, srcIP):

         basicCfg = {
             "driver": "bmv2"
         }

         if self.longitude and self.latitude:
             basicCfg["longitude"] = self.longitude
             basicCfg["latitude"] = self.latitude

         cfgData = {
             "generalprovider": {
                 "p4runtime": {
                     "ip": srcIP,
                     "port": self.grpcPort,
                     "deviceId": BMV2_DEFAULT_DEVICE_ID,
                     "deviceKeyId": "p4runtime:%s" % self.onosDeviceId
                 }
             },
             "piPipeconf": {
                 "piPipeconfId": self.pipeconfId
             },
             "basic": basicCfg
         }

         if self.withGnmi:
             cfgData["generalprovider"]["gnmi"] = {
                 "ip": srcIP,
                 "port": self.grpcPort
             }

         if self.injectPorts:
             portData = {}
             portId = 1
             for intfName in self.intfNames():
                 if intfName == 'lo':
                     continue
                 portData[str(portId)] = {
                     "number": portId,
                     "name": intfName,
                     "enabled": True,
                     "removed": False,
                     "type": "copper",
                     "speed": 10000
                 }
                 portId += 1

             cfgData['ports'] = portData

         return cfgData

     def doOnosNetcfg(self, controllerIP):
         """
         Notifies ONOS about the new device via Netcfg.
         """
         srcIP = self.getSourceIp(controllerIP)
         if not srcIP:
             warn("*** WARN: unable to get switch IP address, won't do netcfg\n")
             return

         cfgData = {
             "devices": {
                 self.onosDeviceId: self.getDeviceConfig(srcIP)
             }
         }
         with open(self.netcfgfile, 'w') as fp:
             json.dump(cfgData, fp, indent=4)

         if not self.netcfg:
             # Do not push config to ONOS.
             return

         # Build netcfg URL
         url = 'http://%s:8181/onos/v1/network/configuration/' % controllerIP
         # Instantiate password manager for HTTP auth
         pm = urllib2.HTTPPasswordMgrWithDefaultRealm()
         pm.add_password(None, url,
                         os.environ['ONOS_WEB_USER'],
                         os.environ['ONOS_WEB_PASS'])
         urllib2.install_opener(urllib2.build_opener(
             urllib2.HTTPBasicAuthHandler(pm)))
         # Push config data to controller
         req = urllib2.Request(url, json.dumps(cfgData),
                               {'Content-Type': 'application/json'})
         try:
             f = urllib2.urlopen(req)
             print f.read()
             f.close()
         except urllib2.URLError as e:
             warn("*** WARN: unable to push config to ONOS (%s)\n" % e.reason)

     def start(self, controllers):
         bmv2Args = [SIMPLE_SWITCH_GRPC] + self.grpcTargetArgs()
         if self.valgrind:
             bmv2Args = VALGRIND_PREFIX.split() + bmv2Args

         cmdString = " ".join(bmv2Args)

         if self.dryrun:
             info("\n*** DRY RUN (not executing bmv2)")

         info("\nStarting BMv2 target: %s\n" % cmdString)

         try:
             if not self.dryrun:
                 # Start the switch
                 self.logfd = open(self.logfile, "w")
                 self.bmv2popen = self.popen(cmdString,
                                             stdout=self.logfd,
                                             stderr=self.logfd)
                 self.waitBmv2Start()
                 # We want to be notified if BMv2 dies...
                 threading.Thread(target=watchDog, args=[self]).start()

             self.doOnosNetcfg(self.controllerIp(controllers))
         except Exception as ex:
             self.killBmv2()
             self.printBmv2Log()
             raise ex

     def grpcTargetArgs(self):
         args = ['--device-id %s' % str(BMV2_DEFAULT_DEVICE_ID)]
         for port, intf in self.intfs.items():
             if not intf.IP():
                 args.append('-i %d@%s' % (port, intf.name))
         args.append('--thrift-port %s' % self.thriftPort)
         ntfaddr = 'ipc:///tmp/bmv2-%s-notifications.ipc' % self.name
         args.append('--notifications-addr %s' % ntfaddr)
         if self.elogger:
             nanologaddr = 'ipc:///tmp/bmv2-%s-nanolog.ipc' % self.name
             args.append('--nanolog %s' % nanologaddr)
         if self.debugger:
             dbgaddr = 'ipc:///tmp/bmv2-%s-debug.ipc' % self.name
             args.append('--debugger-addr %s' % dbgaddr)
         args.append('--log-console')
         if self.pktdump:
             args.append('--pcap --dump-packet-data %s' % PKT_BYTES_TO_DUMP)
         args.append('-L%s' % self.loglevel)
         if not self.json:
             args.append('--no-p4')
         else:
             args.append(self.json)
         # gRPC target-specific options
         args.append('--')
         args.append('--cpu-port %s' % self.cpuPort)
         args.append('--grpc-server-addr 0.0.0.0:%s' % self.grpcPort)
         return args

     def waitBmv2Start(self):
         # Wait for switch to open gRPC port, before sending ONOS the netcfg.
         # Include time-out just in case something hangs.
         sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
         endtime = time.time() + SWITCH_START_TIMEOUT
         while True:
             result = sock.connect_ex(('127.0.0.1', self.grpcPort))
             if result == 0:
                 # The port is open. Let's go! (Close socket first)
                 sock.close()
                 break
             # Port is not open yet. If there is time, we wait a bit.
             if endtime > time.time():
                 time.sleep(0.2)
             else:
                 # Time's up.
                 raise Exception("Switch did not start before timeout")

     def printBmv2Log(self):
         if os.path.isfile(self.logfile):
             print "-" * 80
             print "%s log (from %s):" % (self.name, self.logfile)
             with open(self.logfile, 'r') as f:
                 lines = f.readlines()
                 if len(lines) > BMV2_LOG_LINES:
                     print "..."
                 for line in lines[-BMV2_LOG_LINES:]:
                     print line.rstrip()

     @staticmethod
     def controllerIp(controllers):
         try:
             # onos.py
             clist = controllers[0].nodes()
         except AttributeError:
             clist = controllers
         assert len(clist) > 0
         return clist[0].IP()

     def killBmv2(self, log=False):
         if self.bmv2popen is not None:
             self.bmv2popen.kill()
         if self.logfd is not None:
             if log:
                 self.logfd.write("*** PROCESS TERMINATED BY MININET ***\n")
             self.logfd.close()

     def cleanupTmpFiles(self):
         self.cmd("rm -f /tmp/bmv2-%s-*" % self.name)

     def stop(self, deleteIntfs=True):
         """Terminate switch."""
         self.stopped = True
         self.killBmv2(log=True)
         Switch.stop(self, deleteIntfs)


 # Exports for bin/mn
 switches = {'onosbmv2': ONOSBmv2Switch}
 hosts = {'onoshost': ONOSHost}
	import os
	import socket
	import re
	import json
	import threading
	import urllib2

	import time
	from contextlib import closing

	from mininet.log import info, warn, error
	from mininet.node import Switch, Host

	SIMPLE_SWITCH_GRPC = 'simple_switch_grpc'
	PKT_BYTES_TO_DUMP = 80
	VALGRIND_PREFIX = 'valgrind --leak-check=yes'
	SWITCH_START_TIMEOUT = 5 # seconds
	BMV2_LOG_LINES = 5
	BMV2_DEFAULT_DEVICE_ID = 0


	def parseBoolean(value):
	if value in ['1', 1, 'true', 'True']:
	return True
	else:
	return False


	def pickUnusedPort():
	s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
	s.bind(('localhost', 0))
	addr, port = s.getsockname()
	s.close()
	return port


	def writeToFile(path, value):
	with open(path, "w") as f:
	f.write(str(value))


	def watchDog(sw):
	while True:
	if sw.stopped:
	return
	with closing(socket.socket(socket.AF_INET, socket.SOCK_STREAM)) as s:
	if s.connect_ex(('127.0.0.1', sw.grpcPort)) == 0:
	time.sleep(1)
	else:
	warn("\n*** WARN: BMv2 instance %s (%s) died!\n"
	% (sw.deviceId, sw.name))
	sw.printBmv2Log()
	print ("-" * 80) + "\n"
	return


	class ONOSHost(Host):
	def __init__(self, name, inNamespace=True, **params):
	Host.__init__(self, name, inNamespace=inNamespace, **params)

	def config(self, **params):
	r = super(Host, self).config(**params)
	for off in ["rx", "tx", "sg"]:
	cmd = "/sbin/ethtool --offload %s %s off" \
	% (self.defaultIntf(), off)
	self.cmd(cmd)
	# disable IPv6
	self.cmd("sysctl -w net.ipv6.conf.all.disable_ipv6=1")
	self.cmd("sysctl -w net.ipv6.conf.default.disable_ipv6=1")
	self.cmd("sysctl -w net.ipv6.conf.lo.disable_ipv6=1")
	return r


	class ONOSBmv2Switch(Switch):
	"""BMv2 software switch with gRPC server"""

	def __init__(self, name, json=None, debugger=False, loglevel="warn",
	elogger=False, grpcport=None, cpuport=255,
	thriftport=None, netcfg=True, dryrun=False, pipeconf="",
	pktdump=False, valgrind=False, gnmi=False,
	portcfg=True, onosdevid=None, **kwargs):
	Switch.__init__(self, name, **kwargs)
	self.grpcPort = pickUnusedPort() if not grpcport else grpcport
	self.thriftPort = pickUnusedPort() if not thriftport else thriftport
	self.cpuPort = cpuport
	self.json = json
	self.debugger = parseBoolean(debugger)
	self.loglevel = loglevel
	# Important: Mininet removes all /tmp/*.log files in case of exceptions.
	# We want to be able to see the bmv2 log if anything goes wrong, hence
	# avoid the .log extension.
	self.logfile = '/tmp/bmv2-%s-log' % self.name
	self.elogger = parseBoolean(elogger)
	self.pktdump = parseBoolean(pktdump)
	self.netcfg = parseBoolean(netcfg)
	self.dryrun = parseBoolean(dryrun)
	self.valgrind = parseBoolean(valgrind)
	self.netcfgfile = '/tmp/bmv2-%s-netcfg.json' % self.name
	self.pipeconfId = pipeconf
	self.injectPorts = parseBoolean(portcfg)
	self.withGnmi = parseBoolean(gnmi)
	self.longitude = kwargs['longitude'] if 'longitude' in kwargs else None
	self.latitude = kwargs['latitude'] if 'latitude' in kwargs else None
	if onosdevid is not None and len(onosdevid) > 0:
	self.onosDeviceId = onosdevid
	else:
	self.onosDeviceId = "device:bmv2:%s" % self.name
	self.logfd = None
	self.bmv2popen = None
	self.stopped = False

	# Remove files from previous executions
	self.cleanupTmpFiles()

	writeToFile("/tmp/bmv2-%s-grpc-port" % self.name, self.grpcPort)
	writeToFile("/tmp/bmv2-%s-thrift-port" % self.name, self.thriftPort)

	def getSourceIp(self, dstIP):
	"""
	Queries the Linux routing table to get the source IP that can talk with
	dstIP, and vice versa.
	"""
	ipRouteOut = self.cmd('ip route get %s' % dstIP)
	r = re.search(r"src (\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3})", ipRouteOut)
	return r.group(1) if r else None

	def getDeviceConfig(self, srcIP):

	basicCfg = {
	"driver": "bmv2"
	}

	if self.longitude and self.latitude:
	basicCfg["longitude"] = self.longitude
	basicCfg["latitude"] = self.latitude

	cfgData = {
	"generalprovider": {
	"p4runtime": {
	"ip": srcIP,
	"port": self.grpcPort,
	"deviceId": BMV2_DEFAULT_DEVICE_ID,
	"deviceKeyId": "p4runtime:%s" % self.onosDeviceId
	}
	},
	"piPipeconf": {
	"piPipeconfId": self.pipeconfId
	},
	"basic": basicCfg
	}

	if self.withGnmi:
	cfgData["generalprovider"]["gnmi"] = {
	"ip": srcIP,
	"port": self.grpcPort
	}

	if self.injectPorts:
	portData = {}
	portId = 1
	for intfName in self.intfNames():
	if intfName == 'lo':
	continue
	portData[str(portId)] = {
	"number": portId,
	"name": intfName,
	"enabled": True,
	"removed": False,
	"type": "copper",
	"speed": 10000
	}
	portId += 1

	cfgData['ports'] = portData

	return cfgData

	def doOnosNetcfg(self, controllerIP):
	"""
	Notifies ONOS about the new device via Netcfg.
	"""
	srcIP = self.getSourceIp(controllerIP)
	if not srcIP:
	warn("*** WARN: unable to get switch IP address, won't do netcfg\n")
	return

	cfgData = {
	"devices": {
	self.onosDeviceId: self.getDeviceConfig(srcIP)
	}
	}
	with open(self.netcfgfile, 'w') as fp:
	json.dump(cfgData, fp, indent=4)

	if not self.netcfg:
	# Do not push config to ONOS.
	return

	# Build netcfg URL
	url = 'http://%s:8181/onos/v1/network/configuration/' % controllerIP
	# Instantiate password manager for HTTP auth
	pm = urllib2.HTTPPasswordMgrWithDefaultRealm()
	pm.add_password(None, url,
	os.environ['ONOS_WEB_USER'],
	os.environ['ONOS_WEB_PASS'])
	urllib2.install_opener(urllib2.build_opener(
	urllib2.HTTPBasicAuthHandler(pm)))
	# Push config data to controller
	req = urllib2.Request(url, json.dumps(cfgData),
	{'Content-Type': 'application/json'})
	try:
	f = urllib2.urlopen(req)
	print f.read()
	f.close()
	except urllib2.URLError as e:
	warn("*** WARN: unable to push config to ONOS (%s)\n" % e.reason)

	def start(self, controllers):
	bmv2Args = [SIMPLE_SWITCH_GRPC] + self.grpcTargetArgs()
	if self.valgrind:
	bmv2Args = VALGRIND_PREFIX.split() + bmv2Args

	cmdString = " ".join(bmv2Args)

	if self.dryrun:
	info("\n*** DRY RUN (not executing bmv2)")

	info("\nStarting BMv2 target: %s\n" % cmdString)

	try:
	if not self.dryrun:
	# Start the switch
	self.logfd = open(self.logfile, "w")
	self.bmv2popen = self.popen(cmdString,
	stdout=self.logfd,
	stderr=self.logfd)
	self.waitBmv2Start()
	# We want to be notified if BMv2 dies...
	threading.Thread(target=watchDog, args=[self]).start()

	self.doOnosNetcfg(self.controllerIp(controllers))
	except Exception as ex:
	self.killBmv2()
	self.printBmv2Log()
	raise ex

	def grpcTargetArgs(self):
	args = ['--device-id %s' % str(BMV2_DEFAULT_DEVICE_ID)]
	for port, intf in self.intfs.items():
	if not intf.IP():
	args.append('-i %d@%s' % (port, intf.name))
	args.append('--thrift-port %s' % self.thriftPort)
	ntfaddr = 'ipc:///tmp/bmv2-%s-notifications.ipc' % self.name
	args.append('--notifications-addr %s' % ntfaddr)
	if self.elogger:
	nanologaddr = 'ipc:///tmp/bmv2-%s-nanolog.ipc' % self.name
	args.append('--nanolog %s' % nanologaddr)
	if self.debugger:
	dbgaddr = 'ipc:///tmp/bmv2-%s-debug.ipc' % self.name
	args.append('--debugger-addr %s' % dbgaddr)
	args.append('--log-console')
	if self.pktdump:
	args.append('--pcap --dump-packet-data %s' % PKT_BYTES_TO_DUMP)
	args.append('-L%s' % self.loglevel)
	if not self.json:
	args.append('--no-p4')
	else:
	args.append(self.json)
	# gRPC target-specific options
	args.append('--')
	args.append('--cpu-port %s' % self.cpuPort)
	args.append('--grpc-server-addr 0.0.0.0:%s' % self.grpcPort)
	return args

	def waitBmv2Start(self):
	# Wait for switch to open gRPC port, before sending ONOS the netcfg.
	# Include time-out just in case something hangs.
	sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
	endtime = time.time() + SWITCH_START_TIMEOUT
	while True:
	result = sock.connect_ex(('127.0.0.1', self.grpcPort))
	if result == 0:
	# The port is open. Let's go! (Close socket first)
	sock.close()
	break
	# Port is not open yet. If there is time, we wait a bit.
	if endtime > time.time():
	time.sleep(0.2)
	else:
	# Time's up.
	raise Exception("Switch did not start before timeout")

	def printBmv2Log(self):
	if os.path.isfile(self.logfile):
	print "-" * 80
	print "%s log (from %s):" % (self.name, self.logfile)
	with open(self.logfile, 'r') as f:
	lines = f.readlines()
	if len(lines) > BMV2_LOG_LINES:
	print "..."
	for line in lines[-BMV2_LOG_LINES:]:
	print line.rstrip()

	@staticmethod
	def controllerIp(controllers):
	try:
	# onos.py
	clist = controllers[0].nodes()
	except AttributeError:
	clist = controllers
	assert len(clist) > 0
	return clist[0].IP()

	def killBmv2(self, log=False):
	if self.bmv2popen is not None:
	self.bmv2popen.kill()
	if self.logfd is not None:
	if log:
	self.logfd.write("* PROCESS TERMINATED BY MININET *\n")
	self.logfd.close()

	def cleanupTmpFiles(self):
	self.cmd("rm -f /tmp/bmv2-%s-*" % self.name)

	def stop(self, deleteIntfs=True):
	"""Terminate switch."""
	self.stopped = True
	self.killBmv2(log=True)
	Switch.stop(self, deleteIntfs)


	# Exports for bin/mn
	switches = {'onosbmv2': ONOSBmv2Switch}
	hosts = {'onoshost': ONOSHost}