net/test/netlink.py - kernel/tests - Git at Google

 #!/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


 # Request constants.
 NLM_F_REQUEST = 1
 NLM_F_ACK = 4
 NLM_F_REPLACE = 0x100
 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


 def PaddedLength(length):
   # TODO: This padding is probably overly simplistic.
   return NLA_ALIGNTO * ((length / NLA_ALIGNTO) + (length % NLA_ALIGNTO != 0))


 class NetlinkSocket(object):
   """A basic netlink socket object."""

   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 _GetConstantName(self, module, value, prefix):
     thismodule = sys.modules[module]
     for name in dir(thismodule):
       if name.startswith("INET_DIAG_BC"):
         continue
       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, msg, nla_type, nla_data):
     """No-op, nonspecific version of decode."""
     return nla_type, nla_data

   def _ParseAttributes(self, command, family, msg, 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.
       msg: A Struct, the type of the data after the netlink header.
       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, msg, nla.nla_type, nla_data)

       # We only support unique attributes for now, except for INET_DIAG_NONE,
       # which can appear more than once but doesn't seem to contain any data.
       if nla_name in attributes and nla_name != "INET_DIAG_NONE":
         raise ValueError("Duplicate attribute %s" % 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, self.FAMILY)
     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 _SendNlRequest(self, command, data, flags):
     """Sends a netlink request and expects an ack."""
     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 _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, 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,
                                        nlmsg, data[:attrlen])
     data = data[attrlen:]
     return (nlmsg, attributes), data

   def _GetMsg(self, msgtype):
     data = self._Recv()
     if NLMsgHdr(data).type == NLMSG_ERROR:
       self._ParseAck(data)
     return self._ParseNLMsg(data, msgtype)[0]

   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 _Dump(self, command, msg, msgtype, attrs):
     """Sends a dump request and returns a list of decoded messages.

     Args:
       command: An integer, the command to run (e.g., RTM_NEWADDR).
       msg: A string, the raw bytes of the request (e.g., a packed RTMsg).
       msgtype: A cstruct.Struct, the data type to parse the dump results as.
       attrs: A string, the raw bytes of any request attributes to include.

     Returns:
       A list of (msg, attrs) tuples where msg is of type msgtype and attrs is
       a dict of attributes.
     """
     # Create a netlink dump request containing the msg.
     flags = NLM_F_DUMP | NLM_F_REQUEST
     length = len(NLMsgHdr) + len(msg) + len(attrs)
     nlmsghdr = NLMsgHdr((length, command, flags, self.seq, self.pid))

     # Send the request.
     request = nlmsghdr.Pack() + msg.Pack() + attrs
     self.MaybeDebugCommand(command, request)
     self._Send(request)

     # 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
       elif response_type == NLMSG_ERROR:
         # Likely means that the kernel didn't like our dump request.
         # Parse the error and throw an exception.
         self._ParseAck(data)
       out.extend(self._GetMsgList(msgtype, data, False))

     return out
	#!/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


	# Request constants.
	NLM_F_REQUEST = 1
	NLM_F_ACK = 4
	NLM_F_REPLACE = 0x100
	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


	def PaddedLength(length):
	# TODO: This padding is probably overly simplistic.
	return NLA_ALIGNTO * ((length / NLA_ALIGNTO) + (length % NLA_ALIGNTO != 0))


	class NetlinkSocket(object):
	"""A basic netlink socket object."""

	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 _GetConstantName(self, module, value, prefix):
	thismodule = sys.modules[module]
	for name in dir(thismodule):
	if name.startswith("INET_DIAG_BC"):
	continue
	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, msg, nla_type, nla_data):
	"""No-op, nonspecific version of decode."""
	return nla_type, nla_data

	def _ParseAttributes(self, command, family, msg, 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.
	msg: A Struct, the type of the data after the netlink header.
	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, msg, nla.nla_type, nla_data)

	# We only support unique attributes for now, except for INET_DIAG_NONE,
	# which can appear more than once but doesn't seem to contain any data.
	if nla_name in attributes and nla_name != "INET_DIAG_NONE":
	raise ValueError("Duplicate attribute %s" % 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, self.FAMILY)
	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 _SendNlRequest(self, command, data, flags):
	"""Sends a netlink request and expects an ack."""
	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 _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, 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,
	nlmsg, data[:attrlen])
	data = data[attrlen:]
	return (nlmsg, attributes), data

	def _GetMsg(self, msgtype):
	data = self._Recv()
	if NLMsgHdr(data).type == NLMSG_ERROR:
	self._ParseAck(data)
	return self._ParseNLMsg(data, msgtype)[0]

	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 _Dump(self, command, msg, msgtype, attrs):
	"""Sends a dump request and returns a list of decoded messages.

	Args:
	command: An integer, the command to run (e.g., RTM_NEWADDR).
	msg: A string, the raw bytes of the request (e.g., a packed RTMsg).
	msgtype: A cstruct.Struct, the data type to parse the dump results as.
	attrs: A string, the raw bytes of any request attributes to include.

	Returns:
	A list of (msg, attrs) tuples where msg is of type msgtype and attrs is
	a dict of attributes.
	"""
	# Create a netlink dump request containing the msg.
	flags = NLM_F_DUMP \| NLM_F_REQUEST
	length = len(NLMsgHdr) + len(msg) + len(attrs)
	nlmsghdr = NLMsgHdr((length, command, flags, self.seq, self.pid))

	# Send the request.
	request = nlmsghdr.Pack() + msg.Pack() + attrs
	self.MaybeDebugCommand(command, request)
	self._Send(request)

	# 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
	elif response_type == NLMSG_ERROR:
	# Likely means that the kernel didn't like our dump request.
	# Parse the error and throw an exception.
	self._ParseAck(data)
	out.extend(self._GetMsgList(msgtype, data, False))

	return out