test/routing.py - chromiumos/platform/flimflam - Git at Google

 #!/usr/bin/env python
 # Copyright (c) 2009 The Chromium OS Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 """Return information about routing table entries

 Read and parse the system routing table. There are
 two classes defined here: NetworkRoutes, which contains
 information about all routes, and Route, which describes
 a single routing table entry.
 """

 ROUTES_FILE = "/proc/net/route"
 # The following constants are from <net/route.h>
 RTF_UP      = 0x0001
 RTF_GATEWAY = 0x0002
 RTF_HOST    = 0x0004

 import socket
 import struct

 def intToDottedQuad(addr):
     return socket.inet_ntoa(struct.pack('@I', addr))

 def convertIpToInt(i):
     """Convert the supplied argument to an int representing an IP address."""
     if isinstance(i, int):
         return i
     return struct.unpack('I', socket.inet_aton(i))[0]

 class Route(object):
     def __init__(self, iface, dest, gway, flags, mask):
         self.interface = iface
         self.destination = int(dest, 16)
         self.gateway = int(gway, 16)
         self.flagbits = int(flags, 16)
         self.netmask = int(mask, 16)

     def __str__(self):
         flags = ""
         if self.flagbits & RTF_UP:
             flags += "U"
         if self.flagbits & RTF_GATEWAY:
             flags += "G"
         if self.flagbits & RTF_HOST:
             flags += "H"
         return "<%s dest: %s gway: %s mask: %s flags: %s>" % (
                 self.interface,
                 intToDottedQuad(self.destination),
                 intToDottedQuad(self.gateway),
                 intToDottedQuad(self.netmask),
                 flags)

     def isUsable(self):
         return self.flagbits & RTF_UP

     def isHostRoute(self):
         return self.flagbits & RTF_HOST

     def isGatewayRoute(self):
         return self.flagbits & RTF_GATEWAY

     def isInterfaceRoute(self):
         return (self.flagbits & RTF_GATEWAY) == 0

     def isDefaultRoute(self):
         return (self.flagbits & RTF_GATEWAY) and self.destination == 0

     def matches(self, ip):
         return (ip & self.netmask) == self.destination

 class NetworkRoutes(object):
     def __init__(self, routelist=None):
         if not routelist:
             routef = open(ROUTES_FILE)
             routelist = routef.readlines()
             routef.close()

         # The first line is headers that will allow us
         # to correctly interpret the values in the following
         # lines
         colMap = {}
         headers = routelist[0].split()
         for (pos, token) in enumerate(headers):
             colMap[token] = pos

         self.routes = []
         for routeline in routelist[1:]:
             route = routeline.split()
             interface = route[colMap["Iface"]]
             destination = route[colMap["Destination"]]
             gateway = route[colMap["Gateway"]]
             flags = route[colMap["Flags"]]
             mask = route[colMap["Mask"]]
             self.routes.append(
                     Route(interface, destination, gateway, flags, mask))

     def hasDefaultRoute(self, interface):
         for rr in self.routes:
             if (rr.isUsable() and
                     rr.interface == interface and
                     rr.isDefaultRoute()):
                 return True
         return False

     def getDefaultRoutes(self):
         defroutes = []
         for rr in self.routes:
             if rr.isUsable() and rr.isDefaultRoute():
                 defroutes.append(rr)
         return defroutes

     def hasInterfaceRoute(self, interface):
         for rr in self.routes:
             if (rr.isUsable() and
                     rr.interface == interface and
                     rr.isInterfaceRoute()):
                 return True
             return False

     def getRouteFor(self, ip_as_int_or_string):
         ip = convertIpToInt(ip_as_int_or_string)
         for rr in self.routes:
             if rr.isUsable() and rr.matches(ip):
                 return rr
         return None


 if __name__ == "__main__":
     routes = NetworkRoutes()
     if routes == None:
         print "Failed to read routing table"
     else:
         for each_route in routes.routes:
             print each_route

         print "hasDefaultRoute(\"eth0\"):", routes.hasDefaultRoute("eth0")

         dflts = routes.getDefaultRoutes()
         if dflts == None:
             print "There are no default routes"
         else:
             print "There are %d default routes" % (len(dflts))


         print "hasInterfaceRoute(\"eth0\"):", routes.hasInterfaceRoute("eth0")

     routes = NetworkRoutes([
         "Iface Destination Gateway  Flags RefCnt "
         "Use Metric Mask MTU Window IRTT",
         "ones 00010203 FE010203 0007 0 0 0 00FFFFFF 0 0 0\n",
         "default 00000000 09080706 0007 0 0 0 00000000 0 0 0\n",
         ])

     print routes.getRouteFor(0x01010203)
     print routes.getRouteFor("3.2.1.1")
     print routes.getRouteFor(0x08010209)
	#!/usr/bin/env python
	# Copyright (c) 2009 The Chromium OS Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	"""Return information about routing table entries

	Read and parse the system routing table. There are
	two classes defined here: NetworkRoutes, which contains
	information about all routes, and Route, which describes
	a single routing table entry.
	"""

	ROUTES_FILE = "/proc/net/route"
	# The following constants are from <net/route.h>
	RTF_UP = 0x0001
	RTF_GATEWAY = 0x0002
	RTF_HOST = 0x0004

	import socket
	import struct

	def intToDottedQuad(addr):
	return socket.inet_ntoa(struct.pack('@I', addr))

	def convertIpToInt(i):
	"""Convert the supplied argument to an int representing an IP address."""
	if isinstance(i, int):
	return i
	return struct.unpack('I', socket.inet_aton(i))[0]

	class Route(object):
	def __init__(self, iface, dest, gway, flags, mask):
	self.interface = iface
	self.destination = int(dest, 16)
	self.gateway = int(gway, 16)
	self.flagbits = int(flags, 16)
	self.netmask = int(mask, 16)

	def __str__(self):
	flags = ""
	if self.flagbits & RTF_UP:
	flags += "U"
	if self.flagbits & RTF_GATEWAY:
	flags += "G"
	if self.flagbits & RTF_HOST:
	flags += "H"
	return "<%s dest: %s gway: %s mask: %s flags: %s>" % (
	self.interface,
	intToDottedQuad(self.destination),
	intToDottedQuad(self.gateway),
	intToDottedQuad(self.netmask),
	flags)

	def isUsable(self):
	return self.flagbits & RTF_UP

	def isHostRoute(self):
	return self.flagbits & RTF_HOST

	def isGatewayRoute(self):
	return self.flagbits & RTF_GATEWAY

	def isInterfaceRoute(self):
	return (self.flagbits & RTF_GATEWAY) == 0

	def isDefaultRoute(self):
	return (self.flagbits & RTF_GATEWAY) and self.destination == 0

	def matches(self, ip):
	return (ip & self.netmask) == self.destination

	class NetworkRoutes(object):
	def __init__(self, routelist=None):
	if not routelist:
	routef = open(ROUTES_FILE)
	routelist = routef.readlines()
	routef.close()

	# The first line is headers that will allow us
	# to correctly interpret the values in the following
	# lines
	colMap = {}
	headers = routelist[0].split()
	for (pos, token) in enumerate(headers):
	colMap[token] = pos

	self.routes = []
	for routeline in routelist[1:]:
	route = routeline.split()
	interface = route[colMap["Iface"]]
	destination = route[colMap["Destination"]]
	gateway = route[colMap["Gateway"]]
	flags = route[colMap["Flags"]]
	mask = route[colMap["Mask"]]
	self.routes.append(
	Route(interface, destination, gateway, flags, mask))

	def hasDefaultRoute(self, interface):
	for rr in self.routes:
	if (rr.isUsable() and
	rr.interface == interface and
	rr.isDefaultRoute()):
	return True
	return False

	def getDefaultRoutes(self):
	defroutes = []
	for rr in self.routes:
	if rr.isUsable() and rr.isDefaultRoute():
	defroutes.append(rr)
	return defroutes

	def hasInterfaceRoute(self, interface):
	for rr in self.routes:
	if (rr.isUsable() and
	rr.interface == interface and
	rr.isInterfaceRoute()):
	return True
	return False

	def getRouteFor(self, ip_as_int_or_string):
	ip = convertIpToInt(ip_as_int_or_string)
	for rr in self.routes:
	if rr.isUsable() and rr.matches(ip):
	return rr
	return None


	if __name__ == "__main__":
	routes = NetworkRoutes()
	if routes == None:
	print "Failed to read routing table"
	else:
	for each_route in routes.routes:
	print each_route

	print "hasDefaultRoute(\"eth0\"):", routes.hasDefaultRoute("eth0")

	dflts = routes.getDefaultRoutes()
	if dflts == None:
	print "There are no default routes"
	else:
	print "There are %d default routes" % (len(dflts))


	print "hasInterfaceRoute(\"eth0\"):", routes.hasInterfaceRoute("eth0")

	routes = NetworkRoutes([
	"Iface Destination Gateway Flags RefCnt "
	"Use Metric Mask MTU Window IRTT",
	"ones 00010203 FE010203 0007 0 0 0 00FFFFFF 0 0 0\n",
	"default 00000000 09080706 0007 0 0 0 00000000 0 0 0\n",
	])

	print routes.getRouteFor(0x01010203)
	print routes.getRouteFor("3.2.1.1")
	print routes.getRouteFor(0x08010209)