".
Args:
version: An integer, 4 or 6.
is_add: True to add a rule, False to delete it.
rule_type: Type of rule, e.g., RTN_UNICAST or RTN_UNREACHABLE.
table: If nonzero, rule looks up this table.
match_nlattr: A blob of struct nlattrs that express the match condition.
If None, match everything.
priority: An integer, the priority.
Raises:
IOError: If the netlink request returns an error.
ValueError: If the kernel's response could not be parsed.
"""
# Create a struct rtmsg specifying the table and the given match attributes.
family = self._AddressFamily(version)
rtmsg = RTMsg((family, 0, 0, 0, RT_TABLE_UNSPEC,
RTPROT_STATIC, RT_SCOPE_UNIVERSE, rule_type, 0)).Pack()
rtmsg += self._NlAttrU32(FRA_PRIORITY, priority)
if match_nlattr:
rtmsg += match_nlattr
if table:
rtmsg += self._NlAttrU32(FRA_TABLE, table)
# Create a netlink request containing the rtmsg.
command = RTM_NEWRULE if is_add else RTM_DELRULE
self._SendNlRequest(command, rtmsg)
def DeleteRulesAtPriority(self, version, priority):
family = self._AddressFamily(version)
rtmsg = RTMsg((family, 0, 0, 0, RT_TABLE_UNSPEC,
RTPROT_STATIC, RT_SCOPE_UNIVERSE, RTN_UNICAST, 0)).Pack()
rtmsg += self._NlAttrU32(FRA_PRIORITY, priority)
while True:
try:
self._SendNlRequest(RTM_DELRULE, rtmsg)
except IOError, e:
if e.errno == -errno.ENOENT:
break
else:
raise
def FwmarkRule(self, version, is_add, fwmark, table, priority):
nlattr = self._NlAttrU32(FRA_FWMARK, fwmark)
return self._Rule(version, is_add, RTN_UNICAST, table, nlattr, priority)
def OifRule(self, version, is_add, oif, table, priority):
nlattr = self._NlAttrInterfaceName(FRA_OIFNAME, oif)
return self._Rule(version, is_add, RTN_UNICAST, table, nlattr, priority)
def UidRangeRule(self, version, is_add, start, end, table, priority):
nlattr = (self._NlAttrInterfaceName(FRA_IIFNAME, "lo") +
self._NlAttrU32(FRA_UID_START, start) +
self._NlAttrU32(FRA_UID_END, end))
return self._Rule(version, is_add, RTN_UNICAST, table, nlattr, priority)
def UnreachableRule(self, version, is_add, priority):
return self._Rule(version, is_add, RTN_UNREACHABLE, None, None, priority)
def DefaultRule(self, version, is_add, table, priority):
return self.FwmarkRule(version, is_add, 0, table, priority)
def _ParseNLMsg(self, data, msgtype):
"""Parses a Netlink message into a header and a dictionary of attributes."""
nlmsghdr, data = cstruct.Read(data, NLMsgHdr)
self._Debug(" %s" % nlmsghdr)
if nlmsghdr.type == NLMSG_ERROR or nlmsghdr.type == NLMSG_DONE:
print "done"
return None, data
nlmsg, data = cstruct.Read(data, msgtype)
self._Debug(" %s" % nlmsg)
# Parse the attributes in the nlmsg.
attrlen = nlmsghdr.length - len(nlmsghdr) - len(nlmsg)
attributes = self._ParseAttributes(nlmsghdr.type, nlmsg.family,
data[:attrlen])
data = data[attrlen:]
return (nlmsg, attributes), data
def _GetMsgList(self, msgtype, data, expect_done):
out = []
while data:
msg, data = self._ParseNLMsg(data, msgtype)
if msg is None:
break
out.append(msg)
if expect_done:
self._ExpectDone()
return out
def MaybeDebugCommand(self, command, data):
subject = CommandSubject(command)
if "ALL" not in self.NL_DEBUG and subject not in self.NL_DEBUG:
return
name = CommandName(command)
try:
struct_type = {
"ADDR": IfAddrMsg,
"LINK": IfinfoMsg,
"NEIGH": NdMsg,
"ROUTE": RTMsg,
"RULE": RTMsg,
}[subject]
parsed = self._ParseNLMsg(data, struct_type)
print "%s %s" % (name, str(parsed))
except KeyError:
raise ValueError("Don't know how to print command type %s" % name)
def MaybeDebugMessage(self, message):
hdr = NLMsgHdr(message)
self.MaybeDebugCommand(hdr.type, message)
def _Dump(self, command, msg, msgtype):
"""Sends a dump request and returns a list of decoded messages."""
# Create a netlink dump request containing the msg.
flags = NLM_F_DUMP | NLM_F_REQUEST
length = len(NLMsgHdr) + len(msg)
nlmsghdr = NLMsgHdr((length, command, flags, self.seq, self.pid))
# Send the request.
self._Send(nlmsghdr.Pack() + msg.Pack())
# Keep reading netlink messages until we get a NLMSG_DONE.
out = []
while True:
data = self._Recv()
response_type = NLMsgHdr(data).type
if response_type == NLMSG_DONE:
break
out.extend(self._GetMsgList(msgtype, data, False))
return out
def DumpRules(self, version):
"""Returns the IP rules for the specified IP version."""
# Create a struct rtmsg specifying the table and the given match attributes.
family = self._AddressFamily(version)
rtmsg = RTMsg((family, 0, 0, 0, 0, 0, 0, 0, 0))
return self._Dump(RTM_GETRULE, rtmsg, RTMsg)
def DumpLinks(self):
ifinfomsg = IfinfoMsg((0, 0, 0, 0, 0, 0))
return self._Dump(RTM_GETLINK, ifinfomsg, IfinfoMsg)
def _Address(self, version, command, addr, prefixlen, flags, scope, ifindex):
"""Adds or deletes an IP address."""
family = self._AddressFamily(version)
ifaddrmsg = IfAddrMsg((family, prefixlen, flags, scope, ifindex)).Pack()
ifaddrmsg += self._NlAttrIPAddress(IFA_ADDRESS, family, addr)
if version == 4:
ifaddrmsg += self._NlAttrIPAddress(IFA_LOCAL, family, addr)
self._SendNlRequest(command, ifaddrmsg)
def AddAddress(self, address, prefixlen, ifindex):
self._Address(6 if ":" in address else 4,
RTM_NEWADDR, address, prefixlen,
IFA_F_PERMANENT, RT_SCOPE_UNIVERSE, ifindex)
def DelAddress(self, address, prefixlen, ifindex):
self._Address(6 if ":" in address else 4,
RTM_DELADDR, address, prefixlen, 0, 0, ifindex)
def GetAddress(self, address, ifindex=0):
"""Returns an ifaddrmsg for the requested address."""
if ":" not in address:
# The address is likely an IPv4 address. RTM_GETADDR without the
# NLM_F_DUMP flag is not supported by the kernel. We do not currently
# implement parsing dump results.
raise NotImplementedError("IPv4 RTM_GETADDR not implemented.")
self._Address(6, RTM_GETADDR, address, 0, 0, RT_SCOPE_UNIVERSE, ifindex)
data = self._Recv()
if NLMsgHdr(data).type == NLMSG_ERROR:
self._ParseAck(data)
return self._ParseNLMsg(data, IfAddrMsg)[0]
def _Route(self, version, command, table, dest, prefixlen, nexthop, dev,
mark, uid):
"""Adds, deletes, or queries a route."""
family = self._AddressFamily(version)
scope = RT_SCOPE_UNIVERSE if nexthop else RT_SCOPE_LINK
rtmsg = RTMsg((family, prefixlen, 0, 0, RT_TABLE_UNSPEC,
RTPROT_STATIC, scope, RTN_UNICAST, 0)).Pack()
if command == RTM_NEWROUTE and not table:
# Don't allow setting routes in table 0, since its behaviour is confusing
# and differs between IPv4 and IPv6.
raise ValueError("Cowardly refusing to add a route to table 0")
if table:
rtmsg += self._NlAttrU32(FRA_TABLE, table)
if dest != "default": # The default is the default route.
rtmsg += self._NlAttrIPAddress(RTA_DST, family, dest)
if nexthop:
rtmsg += self._NlAttrIPAddress(RTA_GATEWAY, family, nexthop)
if dev:
rtmsg += self._NlAttrU32(RTA_OIF, dev)
if mark is not None:
rtmsg += self._NlAttrU32(RTA_MARK, mark)
if uid is not None:
rtmsg += self._NlAttrU32(RTA_UID, uid)
self._SendNlRequest(command, rtmsg)
def AddRoute(self, version, table, dest, prefixlen, nexthop, dev):
self._Route(version, RTM_NEWROUTE, table, dest, prefixlen, nexthop, dev,
None, None)
def DelRoute(self, version, table, dest, prefixlen, nexthop, dev):
self._Route(version, RTM_DELROUTE, table, dest, prefixlen, nexthop, dev,
None, None)
def GetRoutes(self, dest, oif, mark, uid):
version = 6 if ":" in dest else 4
prefixlen = {4: 32, 6: 128}[version]
self._Route(version, RTM_GETROUTE, 0, dest, prefixlen, None, oif, mark, uid)
data = self._Recv()
# The response will either be an error or a list of routes.
if NLMsgHdr(data).type == NLMSG_ERROR:
self._ParseAck(data)
routes = self._GetMsgList(RTMsg, data, False)
return routes
def _Neighbour(self, version, is_add, addr, lladdr, dev, state):
"""Adds or deletes a neighbour cache entry."""
family = self._AddressFamily(version)
# Convert the link-layer address to a raw byte string.
if is_add:
lladdr = lladdr.split(":")
if len(lladdr) != 6:
raise ValueError("Invalid lladdr %s" % ":".join(lladdr))
lladdr = "".join(chr(int(hexbyte, 16)) for hexbyte in lladdr)
ndmsg = NdMsg((family, dev, state, 0, RTN_UNICAST)).Pack()
ndmsg += self._NlAttrIPAddress(NDA_DST, family, addr)
if is_add:
ndmsg += self._NlAttr(NDA_LLADDR, lladdr)
command = RTM_NEWNEIGH if is_add else RTM_DELNEIGH
self._SendNlRequest(command, ndmsg)
def AddNeighbour(self, version, addr, lladdr, dev):
self._Neighbour(version, True, addr, lladdr, dev, NUD_PERMANENT)
def DelNeighbour(self, version, addr, lladdr, dev):
self._Neighbour(version, False, addr, lladdr, dev, 0)
if __name__ == "__main__":
iproute = IPRoute()
iproute.DEBUG = True
iproute.DumpRules(6)
iproute.DumpLinks()
print iproute.GetRoutes("2001:4860:4860::8888", 0, 0, None)
#!/usr/bin/python
#
# Copyright 2014 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Partial Python implementation of iproute functionality."""
# pylint: disable=g-bad-todo
import errno
import os
import socket
import struct
import sys
import cstruct
### Base netlink constants. See include/uapi/linux/netlink.h.
NETLINK_ROUTE = 0
# Request constants.
NLM_F_REQUEST = 1
NLM_F_ACK = 4
NLM_F_EXCL = 0x200
NLM_F_CREATE = 0x400
NLM_F_DUMP = 0x300
# Message types.
NLMSG_ERROR = 2
NLMSG_DONE = 3
# Data structure formats.
# These aren't constants, they're classes. So, pylint: disable=invalid-name
NLMsgHdr = cstruct.Struct("NLMsgHdr", "=LHHLL", "length type flags seq pid")
NLMsgErr = cstruct.Struct("NLMsgErr", "=i", "error")
NLAttr = cstruct.Struct("NLAttr", "=HH", "nla_len nla_type")
# Alignment / padding.
NLA_ALIGNTO = 4
### rtnetlink constants. See include/uapi/linux/rtnetlink.h.
# Message types.
RTM_NEWLINK = 16
RTM_DELLINK = 17
RTM_GETLINK = 18
RTM_NEWADDR = 20
RTM_DELADDR = 21
RTM_GETADDR = 22
RTM_NEWROUTE = 24
RTM_DELROUTE = 25
RTM_GETROUTE = 26
RTM_NEWNEIGH = 28
RTM_DELNEIGH = 29
RTM_NEWRULE = 32
RTM_DELRULE = 33
RTM_GETRULE = 34
# Routing message type values (rtm_type).
RTN_UNSPEC = 0
RTN_UNICAST = 1
RTN_UNREACHABLE = 7
# Routing protocol values (rtm_protocol).
RTPROT_UNSPEC = 0
RTPROT_STATIC = 4
# Route scope values (rtm_scope).
RT_SCOPE_UNIVERSE = 0
RT_SCOPE_LINK = 253
# Named routing tables.
RT_TABLE_UNSPEC = 0
# Routing attributes.
RTA_DST = 1
RTA_SRC = 2
RTA_OIF = 4
RTA_GATEWAY = 5
RTA_PRIORITY = 6
RTA_PREFSRC = 7
RTA_METRICS = 8
RTA_CACHEINFO = 12
RTA_TABLE = 15
RTA_MARK = 16
RTA_UID = 18
# Route metric attributes.
RTAX_MTU = 2
# Data structure formats.
IfinfoMsg = cstruct.Struct(
"IfinfoMsg", "=BBHiII", "family pad type index flags change")
RTMsg = cstruct.Struct(
"RTMsg", "=BBBBBBBBI",
"family dst_len src_len tos table protocol scope type flags")
RTACacheinfo = cstruct.Struct(
"RTACacheinfo", "=IIiiI", "clntref lastuse expires error used")
### Interface address constants. See include/uapi/linux/if_addr.h.
# Interface address attributes.
IFA_ADDRESS = 1
IFA_LOCAL = 2
IFA_CACHEINFO = 6
# Address flags.
IFA_F_SECONDARY = 0x01
IFA_F_TEMPORARY = IFA_F_SECONDARY
IFA_F_NODAD = 0x02
IFA_F_OPTIMISTIC = 0x04
IFA_F_DADFAILED = 0x08
IFA_F_HOMEADDRESS = 0x10
IFA_F_DEPRECATED = 0x20
IFA_F_TENTATIVE = 0x40
IFA_F_PERMANENT = 0x80
# Data structure formats.
IfAddrMsg = cstruct.Struct(
"IfAddrMsg", "=BBBBI",
"family prefixlen flags scope index")
IFACacheinfo = cstruct.Struct(
"IFACacheinfo", "=IIII", "prefered valid cstamp tstamp")
### Neighbour table entry constants. See include/uapi/linux/neighbour.h.
# Neighbour cache entry attributes.
NDA_DST = 1
NDA_LLADDR = 2
# Neighbour cache entry states.
NUD_PERMANENT = 0x80
# Data structure formats.
NdMsg = cstruct.Struct(
"NdMsg", "=BxxxiHBB",
"family ifindex state flags type")
### FIB rule constants. See include/uapi/linux/fib_rules.h.
FRA_IIFNAME = 3
FRA_PRIORITY = 6
FRA_FWMARK = 10
FRA_SUPPRESS_PREFIXLEN = 14
FRA_TABLE = 15
FRA_OIFNAME = 17
FRA_UID_START = 18
FRA_UID_END = 19
# Link constants. See include/uapi/linux/if_link.h.
IFLA_ADDRESS = 1
IFLA_BROADCAST = 2
IFLA_IFNAME = 3
IFLA_MTU = 4
IFLA_QDISC = 6
IFLA_STATS = 7
IFLA_TXQLEN = 13
IFLA_MAP = 14
IFLA_OPERSTATE = 16
IFLA_LINKMODE = 17
IFLA_STATS64 = 23
IFLA_AF_SPEC = 26
IFLA_GROUP = 27
IFLA_EXT_MASK = 29
IFLA_PROMISCUITY = 30
IFLA_NUM_TX_QUEUES = 31
IFLA_NUM_RX_QUEUES = 32
IFLA_CARRIER = 33
def CommandVerb(command):
return ["NEW", "DEL", "GET", "SET"][command % 4]
def CommandSubject(command):
return ["LINK", "ADDR", "ROUTE", "NEIGH", "RULE"][(command - 16) / 4]
def CommandName(command):
try:
return "RTM_%s%s" % (CommandVerb(command), CommandSubject(command))
except KeyError:
return "RTM_%d" % command
def PaddedLength(length):
# TODO: This padding is probably overly simplistic.
return NLA_ALIGNTO * ((length / NLA_ALIGNTO) + (length % NLA_ALIGNTO != 0))
class IPRoute(object):
"""Provides a tiny subset of iproute functionality."""
BUFSIZE = 65536
DEBUG = False
# List of netlink messages to print, e.g., [], ["NEIGH", "ROUTE"], or ["ALL"]
NL_DEBUG = []
def _Debug(self, s):
if self.DEBUG:
print s
def _NlAttr(self, nla_type, data):
datalen = len(data)
# Pad the data if it's not a multiple of NLA_ALIGNTO bytes long.
padding = "\x00" * (PaddedLength(datalen) - datalen)
nla_len = datalen + len(NLAttr)
return NLAttr((nla_len, nla_type)).Pack() + data + padding
def _NlAttrU32(self, nla_type, value):
return self._NlAttr(nla_type, struct.pack("=I", value))
def _NlAttrIPAddress(self, nla_type, family, address):
return self._NlAttr(nla_type, socket.inet_pton(family, address))
def _NlAttrInterfaceName(self, nla_type, interface):
return self._NlAttr(nla_type, interface + "\x00")
def _GetConstantName(self, value, prefix):
thismodule = sys.modules[__name__]
for name in dir(thismodule):
if (name.startswith(prefix) and
not name.startswith(prefix + "F_") and
name.isupper() and
getattr(thismodule, name) == value):
return name
return value
def _Decode(self, command, family, nla_type, nla_data):
"""Decodes netlink attributes to Python types.
Values for which the code knows the type (e.g., the fwmark ID in a
RTM_NEWRULE command) are decoded to Python integers, strings, etc. Values
of unknown type are returned as raw byte strings.
Args:
command: An integer.
- If positive, the number of the rtnetlink command being carried out.
This is used to interpret the attributes. For example, for an
RTM_NEWROUTE command, attribute type 3 is the incoming interface and
is an integer, but for a RTM_NEWRULE command, attribute type 3 is the
incoming interface name and is a string.
- If negative, one of the following (negative) values:
- RTA_METRICS: Interpret as nested route metrics.
family: The address family. Used to convert IP addresses into strings.
nla_type: An integer, then netlink attribute type.
nla_data: A byte string, the netlink attribute data.
Returns:
A tuple (name, data):
- name is a string (e.g., "FRA_PRIORITY") if we understood the attribute,
or an integer if we didn't.
- data can be an integer, a string, a nested dict of attributes as
returned by _ParseAttributes (e.g., for RTA_METRICS), a cstruct.Struct
(e.g., RTACacheinfo), etc. If we didn't understand the attribute, it
will be the raw byte string.
"""
if command == -RTA_METRICS:
if nla_type == RTAX_MTU:
return ("RTAX_MTU", struct.unpack("=I", nla_data)[0])
if command == -RTA_METRICS:
name = self._GetConstantName(nla_type, "RTAX_")
elif CommandSubject(command) == "ADDR":
name = self._GetConstantName(nla_type, "IFA_")
elif CommandSubject(command) == "LINK":
name = self._GetConstantName(nla_type, "IFLA_")
elif CommandSubject(command) == "RULE":
name = self._GetConstantName(nla_type, "FRA_")
elif CommandSubject(command) == "ROUTE":
name = self._GetConstantName(nla_type, "RTA_")
elif CommandSubject(command) == "NEIGH":
name = self._GetConstantName(nla_type, "NDA_")
else:
# Don't know what this is. Leave it as an integer.
name = nla_type
if name in ["FRA_PRIORITY", "FRA_FWMARK", "FRA_TABLE",
"FRA_UID_START", "FRA_UID_END",
"RTA_OIF", "RTA_PRIORITY", "RTA_TABLE", "RTA_MARK",
"IFLA_MTU", "IFLA_TXQLEN", "IFLA_GROUP", "IFLA_EXT_MASK",
"IFLA_PROMISCUITY", "IFLA_NUM_RX_QUEUES",
"IFLA_NUM_TX_QUEUES"]:
data = struct.unpack("=I", nla_data)[0]
elif name == "FRA_SUPPRESS_PREFIXLEN":
data = struct.unpack("=i", nla_data)[0]
elif name in ["IFLA_LINKMODE", "IFLA_OPERSTATE", "IFLA_CARRIER"]:
data = ord(nla_data)
elif name in ["IFA_ADDRESS", "IFA_LOCAL", "RTA_DST", "RTA_SRC",
"RTA_GATEWAY", "RTA_PREFSRC", "RTA_UID",
"NDA_DST"]:
data = socket.inet_ntop(family, nla_data)
elif name in ["FRA_IIFNAME", "FRA_OIFNAME", "IFLA_IFNAME", "IFLA_QDISC"]:
data = nla_data.strip("\x00")
elif name == "RTA_METRICS":
data = self._ParseAttributes(-RTA_METRICS, family, nla_data)
elif name == "RTA_CACHEINFO":
data = RTACacheinfo(nla_data)
elif name == "IFA_CACHEINFO":
data = IFACacheinfo(nla_data)
elif name in ["NDA_LLADDR", "IFLA_ADDRESS"]:
data = ":".join(x.encode("hex") for x in nla_data)
else:
data = nla_data
return name, data
def _ParseAttributes(self, command, family, data):
"""Parses and decodes netlink attributes.
Takes a block of NLAttr data structures, decodes them using Decode, and
returns the result in a dict keyed by attribute number.
Args:
command: An integer, the rtnetlink command being carried out.
family: The address family.
data: A byte string containing a sequence of NLAttr data structures.
Returns:
A dictionary mapping attribute types (integers) to decoded values.
Raises:
ValueError: There was a duplicate attribute type.
"""
attributes = {}
while data:
# Read the nlattr header.
nla, data = cstruct.Read(data, NLAttr)
# Read the data.
datalen = nla.nla_len - len(nla)
padded_len = PaddedLength(nla.nla_len) - len(nla)
nla_data, data = data[:datalen], data[padded_len:]
# If it's an attribute we know about, try to decode it.
nla_name, nla_data = self._Decode(command, family, nla.nla_type, nla_data)
# We only support unique attributes for now.
if nla_name in attributes:
raise ValueError("Duplicate attribute %d" % nla_name)
attributes[nla_name] = nla_data
self._Debug(" %s" % str((nla_name, nla_data)))
return attributes
def __init__(self):
# Global sequence number.
self.seq = 0
self.sock = socket.socket(socket.AF_NETLINK, socket.SOCK_RAW,
socket.NETLINK_ROUTE)
self.sock.connect((0, 0)) # The kernel.
self.pid = self.sock.getsockname()[1]
def _Send(self, msg):
# self._Debug(msg.encode("hex"))
self.seq += 1
self.sock.send(msg)
def _Recv(self):
data = self.sock.recv(self.BUFSIZE)
# self._Debug(data.encode("hex"))
return data
def _ExpectDone(self):
response = self._Recv()
hdr = NLMsgHdr(response)
if hdr.type != NLMSG_DONE:
raise ValueError("Expected DONE, got type %d" % hdr.type)
def _ParseAck(self, response):
# Find the error code.
hdr, data = cstruct.Read(response, NLMsgHdr)
if hdr.type == NLMSG_ERROR:
error = NLMsgErr(data).error
if error:
raise IOError(error, os.strerror(-error))
else:
raise ValueError("Expected ACK, got type %d" % hdr.type)
def _ExpectAck(self):
response = self._Recv()
self._ParseAck(response)
def _AddressFamily(self, version):
return {4: socket.AF_INET, 6: socket.AF_INET6}[version]
def _SendNlRequest(self, command, data):
"""Sends a netlink request and expects an ack."""
flags = NLM_F_REQUEST
if CommandVerb(command) != "GET":
flags |= NLM_F_ACK
if CommandVerb(command) == "NEW":
flags |= (NLM_F_EXCL | NLM_F_CREATE)
length = len(NLMsgHdr) + len(data)
nlmsg = NLMsgHdr((length, command, flags, self.seq, self.pid)).Pack()
self.MaybeDebugCommand(command, nlmsg + data)
# Send the message.
self._Send(nlmsg + data)
if flags & NLM_F_ACK:
self._ExpectAck()
def _Rule(self, version, is_add, rule_type, table, match_nlattr, priority):
"""Python equivalent of "ip rule <add|del> <match_cond> lookup <table>".
Args:
version: An integer, 4 or 6.
is_add: True to add a rule, False to delete it.
rule_type: Type of rule, e.g., RTN_UNICAST or RTN_UNREACHABLE.
table: If nonzero, rule looks up this table.
match_nlattr: A blob of struct nlattrs that express the match condition.
If None, match everything.
priority: An integer, the priority.
Raises:
IOError: If the netlink request returns an error.
ValueError: If the kernel's response could not be parsed.
"""
# Create a struct rtmsg specifying the table and the given match attributes.
family = self._AddressFamily(version)
rtmsg = RTMsg((family, 0, 0, 0, RT_TABLE_UNSPEC,
RTPROT_STATIC, RT_SCOPE_UNIVERSE, rule_type, 0)).Pack()
rtmsg += self._NlAttrU32(FRA_PRIORITY, priority)
if match_nlattr:
rtmsg += match_nlattr
if table:
rtmsg += self._NlAttrU32(FRA_TABLE, table)
# Create a netlink request containing the rtmsg.
command = RTM_NEWRULE if is_add else RTM_DELRULE
self._SendNlRequest(command, rtmsg)
def DeleteRulesAtPriority(self, version, priority):
family = self._AddressFamily(version)
rtmsg = RTMsg((family, 0, 0, 0, RT_TABLE_UNSPEC,
RTPROT_STATIC, RT_SCOPE_UNIVERSE, RTN_UNICAST, 0)).Pack()
rtmsg += self._NlAttrU32(FRA_PRIORITY, priority)
while True:
try:
self._SendNlRequest(RTM_DELRULE, rtmsg)
except IOError, e:
if e.errno == -errno.ENOENT:
break
else:
raise
def FwmarkRule(self, version, is_add, fwmark, table, priority):
nlattr = self._NlAttrU32(FRA_FWMARK, fwmark)
return self._Rule(version, is_add, RTN_UNICAST, table, nlattr, priority)
def OifRule(self, version, is_add, oif, table, priority):
nlattr = self._NlAttrInterfaceName(FRA_OIFNAME, oif)
return self._Rule(version, is_add, RTN_UNICAST, table, nlattr, priority)
def UidRangeRule(self, version, is_add, start, end, table, priority):
nlattr = (self._NlAttrInterfaceName(FRA_IIFNAME, "lo") +
self._NlAttrU32(FRA_UID_START, start) +
self._NlAttrU32(FRA_UID_END, end))
return self._Rule(version, is_add, RTN_UNICAST, table, nlattr, priority)
def UnreachableRule(self, version, is_add, priority):
return self._Rule(version, is_add, RTN_UNREACHABLE, None, None, priority)
def DefaultRule(self, version, is_add, table, priority):
return self.FwmarkRule(version, is_add, 0, table, priority)
def _ParseNLMsg(self, data, msgtype):
"""Parses a Netlink message into a header and a dictionary of attributes."""
nlmsghdr, data = cstruct.Read(data, NLMsgHdr)
self._Debug(" %s" % nlmsghdr)
if nlmsghdr.type == NLMSG_ERROR or nlmsghdr.type == NLMSG_DONE:
print "done"
return None, data
nlmsg, data = cstruct.Read(data, msgtype)
self._Debug(" %s" % nlmsg)
# Parse the attributes in the nlmsg.
attrlen = nlmsghdr.length - len(nlmsghdr) - len(nlmsg)
attributes = self._ParseAttributes(nlmsghdr.type, nlmsg.family,
data[:attrlen])
data = data[attrlen:]
return (nlmsg, attributes), data
def _GetMsgList(self, msgtype, data, expect_done):
out = []
while data:
msg, data = self._ParseNLMsg(data, msgtype)
if msg is None:
break
out.append(msg)
if expect_done:
self._ExpectDone()
return out
def MaybeDebugCommand(self, command, data):
subject = CommandSubject(command)
if "ALL" not in self.NL_DEBUG and subject not in self.NL_DEBUG:
return
name = CommandName(command)
try:
struct_type = {
"ADDR": IfAddrMsg,
"LINK": IfinfoMsg,
"NEIGH": NdMsg,
"ROUTE": RTMsg,
"RULE": RTMsg,
}[subject]
parsed = self._ParseNLMsg(data, struct_type)
print "%s %s" % (name, str(parsed))
except KeyError:
raise ValueError("Don't know how to print command type %s" % name)
def MaybeDebugMessage(self, message):
hdr = NLMsgHdr(message)
self.MaybeDebugCommand(hdr.type, message)
def _Dump(self, command, msg, msgtype):
"""Sends a dump request and returns a list of decoded messages."""
# Create a netlink dump request containing the msg.
flags = NLM_F_DUMP | NLM_F_REQUEST
length = len(NLMsgHdr) + len(msg)
nlmsghdr = NLMsgHdr((length, command, flags, self.seq, self.pid))
# Send the request.
self._Send(nlmsghdr.Pack() + msg.Pack())
# Keep reading netlink messages until we get a NLMSG_DONE.
out = []
while True:
data = self._Recv()
response_type = NLMsgHdr(data).type
if response_type == NLMSG_DONE:
break
out.extend(self._GetMsgList(msgtype, data, False))
return out
def DumpRules(self, version):
"""Returns the IP rules for the specified IP version."""
# Create a struct rtmsg specifying the table and the given match attributes.
family = self._AddressFamily(version)
rtmsg = RTMsg((family, 0, 0, 0, 0, 0, 0, 0, 0))
return self._Dump(RTM_GETRULE, rtmsg, RTMsg)
def DumpLinks(self):
ifinfomsg = IfinfoMsg((0, 0, 0, 0, 0, 0))
return self._Dump(RTM_GETLINK, ifinfomsg, IfinfoMsg)
def _Address(self, version, command, addr, prefixlen, flags, scope, ifindex):
"""Adds or deletes an IP address."""
family = self._AddressFamily(version)
ifaddrmsg = IfAddrMsg((family, prefixlen, flags, scope, ifindex)).Pack()
ifaddrmsg += self._NlAttrIPAddress(IFA_ADDRESS, family, addr)
if version == 4:
ifaddrmsg += self._NlAttrIPAddress(IFA_LOCAL, family, addr)
self._SendNlRequest(command, ifaddrmsg)
def AddAddress(self, address, prefixlen, ifindex):
self._Address(6 if ":" in address else 4,
RTM_NEWADDR, address, prefixlen,
IFA_F_PERMANENT, RT_SCOPE_UNIVERSE, ifindex)
def DelAddress(self, address, prefixlen, ifindex):
self._Address(6 if ":" in address else 4,
RTM_DELADDR, address, prefixlen, 0, 0, ifindex)
def GetAddress(self, address, ifindex=0):
"""Returns an ifaddrmsg for the requested address."""
if ":" not in address:
# The address is likely an IPv4 address. RTM_GETADDR without the
# NLM_F_DUMP flag is not supported by the kernel. We do not currently
# implement parsing dump results.
raise NotImplementedError("IPv4 RTM_GETADDR not implemented.")
self._Address(6, RTM_GETADDR, address, 0, 0, RT_SCOPE_UNIVERSE, ifindex)
data = self._Recv()
if NLMsgHdr(data).type == NLMSG_ERROR:
self._ParseAck(data)
return self._ParseNLMsg(data, IfAddrMsg)[0]
def _Route(self, version, command, table, dest, prefixlen, nexthop, dev,
mark, uid):
"""Adds, deletes, or queries a route."""
family = self._AddressFamily(version)
scope = RT_SCOPE_UNIVERSE if nexthop else RT_SCOPE_LINK
rtmsg = RTMsg((family, prefixlen, 0, 0, RT_TABLE_UNSPEC,
RTPROT_STATIC, scope, RTN_UNICAST, 0)).Pack()
if command == RTM_NEWROUTE and not table:
# Don't allow setting routes in table 0, since its behaviour is confusing
# and differs between IPv4 and IPv6.
raise ValueError("Cowardly refusing to add a route to table 0")
if table:
rtmsg += self._NlAttrU32(FRA_TABLE, table)
if dest != "default": # The default is the default route.
rtmsg += self._NlAttrIPAddress(RTA_DST, family, dest)
if nexthop:
rtmsg += self._NlAttrIPAddress(RTA_GATEWAY, family, nexthop)
if dev:
rtmsg += self._NlAttrU32(RTA_OIF, dev)
if mark is not None:
rtmsg += self._NlAttrU32(RTA_MARK, mark)
if uid is not None:
rtmsg += self._NlAttrU32(RTA_UID, uid)
self._SendNlRequest(command, rtmsg)
def AddRoute(self, version, table, dest, prefixlen, nexthop, dev):
self._Route(version, RTM_NEWROUTE, table, dest, prefixlen, nexthop, dev,
None, None)
def DelRoute(self, version, table, dest, prefixlen, nexthop, dev):
self._Route(version, RTM_DELROUTE, table, dest, prefixlen, nexthop, dev,
None, None)
def GetRoutes(self, dest, oif, mark, uid):
version = 6 if ":" in dest else 4
prefixlen = {4: 32, 6: 128}[version]
self._Route(version, RTM_GETROUTE, 0, dest, prefixlen, None, oif, mark, uid)
data = self._Recv()
# The response will either be an error or a list of routes.
if NLMsgHdr(data).type == NLMSG_ERROR:
self._ParseAck(data)
routes = self._GetMsgList(RTMsg, data, False)
return routes
def _Neighbour(self, version, is_add, addr, lladdr, dev, state):
"""Adds or deletes a neighbour cache entry."""
family = self._AddressFamily(version)
# Convert the link-layer address to a raw byte string.
if is_add:
lladdr = lladdr.split(":")
if len(lladdr) != 6:
raise ValueError("Invalid lladdr %s" % ":".join(lladdr))
lladdr = "".join(chr(int(hexbyte, 16)) for hexbyte in lladdr)
ndmsg = NdMsg((family, dev, state, 0, RTN_UNICAST)).Pack()
ndmsg += self._NlAttrIPAddress(NDA_DST, family, addr)
if is_add:
ndmsg += self._NlAttr(NDA_LLADDR, lladdr)
command = RTM_NEWNEIGH if is_add else RTM_DELNEIGH
self._SendNlRequest(command, ndmsg)
def AddNeighbour(self, version, addr, lladdr, dev):
self._Neighbour(version, True, addr, lladdr, dev, NUD_PERMANENT)
def DelNeighbour(self, version, addr, lladdr, dev):
self._Neighbour(version, False, addr, lladdr, dev, 0)
if __name__ == "__main__":
iproute = IPRoute()
iproute.DEBUG = True
iproute.DumpRules(6)
iproute.DumpLinks()
print iproute.GetRoutes("2001:4860:4860::8888", 0, 0, None)
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