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'''
basic
+++++
Basic filter has multiple types supports.
Examples with ipset matches::
# Prepare a simple match on an ipset at index 0 src
# (the first ipset name that appears when running `ipset list`)
match = [{"kind": "ipset", "index": 0, "mode": "src"}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match)
# The same match but inverted, simply add inverse flag
match = [{"kind": "ipset", "index": 0, "mode": "src",
"inverse": True}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match)
# Still one ipset but with multiple dimensions:
# comma separated list of modes
match = [{"kind": "ipset", "index": 0, "mode": "src,dst"}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match)
# Now let's add multiple expressions (ipset 0 src and ipset 1 src)
match = [{"kind": "ipset", "index": 0, "mode": "src",
"relation": "and"},
{"kind": "ipset", "index": 1, "mode": "src"}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match)
# The same works with OR (ipset 0 src or ipset 1 src)
match = [{"kind": "ipset", "index": 0, "mode": "src",
"relation": "OR"},
{"kind": "ipset", "index": 1, "mode": "src"}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match)
Examples with cmp matches::
# Repeating the example given in the man page
match = [{"kind": "cmp", "layer": 2, "opnd": "gt", "align": "u16",
"offset": 3, "mask": 0xff00, "value": 20}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match)
# Now, the same example but with variations
# - use layer name instead of enum
# - use operand sign instead of name
match = [{"kind": "cmp", "layer": "transport", "opnd": ">","align": "u16",
"offset": 3, "mask": 0xff00, "value": 20}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match)
# Again, the same example with all possible keywords even if they are
# ignored
match = [{"kind": "cmp", "layer": "tcp", "opnd": ">", "align": "u16",
"offset": 3, "mask": 0xff00, "value": 20, "trans": False}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match)
# Another example, we want to work at the link layer
# and filter incoming packets matching hwaddr 00:DE:AD:C0:DE:00
# OSI model tells us that the source hwaddr is at offset 0 of
# the link layer.
# Size of hwaddr is 6-bytes in length, so I use an u32 then an u16
# to do the complete match
match = [{"kind": "cmp", "layer": "link", "opnd": "eq", "align": "u32",
"offset": 0, "mask": 0xffffffff, "value": 0x00DEADC0,
"relation": "and"},
{"kind": "cmp", "layer": "link", "opnd": "eq", "align": "u16",
"offset": 4, "mask": 0xffff, "value": 0xDE00}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match)
# As the man page says, here are the different key-value pairs you can use:
# "layer": "link" or "eth" or 0
# "layer": "network" or "ip" or 1
# "layer": "transport" or "tcp" or 2
# "opnd": "eq" or "=" or 0
# "opnd": "gt" or ">" or 1
# "opnd": "lt" or "<" or 2
# "align": "u8" or "u16" or "u32"
# "trans": True or False
# "offset", "mask" and "value": any integer
Examples with meta matches::
# Repeating the example given in the man page
match = [{"kind": "meta", "object":{"kind": "nfmark", "opnd": "gt"},
"value": 24, "relation": "and"},
{"kind": "meta", "object":{"kind": "tcindex", "opnd": "eq"},
"value": 0xf0, "mask": 0xf0}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match)
# Now, the same example but with variations
# - use operand sign instead of name
match = [{"kind": "meta", "object":{"kind": "nfmark", "opnd": ">"},
"value": 24, "relation": "and"},
{"kind": "meta", "object":{"kind": "tcindex", "opnd": "="},
"value": 0xf0, "mask": 0xf0}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match)
# Another example given by the tc helper
# meta(indev shift 1 eq "ppp")
match = [{"kind": "meta", "object":{"kind": "dev", "opnd": "eq",
"shift": 1}, "value": "ppp"}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match)
# Another example, drop every packets arriving on ifb0
match = [{"kind": "meta", "object":{"kind": "dev", "opnd": "eq"},
"value": "ifb0"}]
ip.tc("add-filter", "basic", ifb0,
parent=0x10000, classid=0x10010, match=match, action="drop")
# As the man page says, here are the different key-value pairs you can use:
# "opnd": "eq" or "=" or 0
# "opnd": "gt" or ">" or 1
# "opnd": "lt" or "<" or 2
# "shift": any integer between 0 and 255 included
# "kind" object: see `tc filter add dev iface basic match 'meta(list)'`
result
# "value": any string if kind matches 'dev' or 'sk_bound_if',
# any integer otherwise
NOTES:
When not specified, `inverse` flag is set to False.
Do not specify `relation` keyword on the last expression or
if there is only one expression.
`relation` can be written using multiple format:
"and", "AND", "&&", "or", "OR", "||"
You can combine multiple different types of ematch. Here is an example::
match = [{"kind": "cmp", "layer": 2, "opnd": "eq", "align": "u32",
"offset": 0, "value": 32, "relation": "&&"},
{"kind": "meta",
"object":{"kind": "vlan_tag", "opnd": "eq"}, "value": 100,
"relation": "||"},
{"kind": "ipset", "index": 0, "mode": "src", "inverse": True}
]
'''
import struct
from socket import htons
from pyroute2 import protocols
from pyroute2.netlink import nla
from pyroute2.netlink.rtnl.tcmsg.common_act import get_tca_action, tca_act_prio
from pyroute2.netlink.rtnl.tcmsg.common_ematch import (
get_tcf_ematches,
nla_plus_tcf_ematch_opt,
)
def fix_msg(msg, kwarg):
msg['info'] = htons(
kwarg.get('protocol', protocols.ETH_P_ALL) & 0xFFFF
) | ((kwarg.get('prio', 0) << 16) & 0xFFFF0000)
def get_parameters(kwarg):
ret = {'attrs': []}
attrs_map = (('classid', 'TCA_BASIC_CLASSID'),)
if kwarg.get('match'):
ret['attrs'].append(['TCA_BASIC_EMATCHES', get_tcf_ematches(kwarg)])
if kwarg.get('action'):
ret['attrs'].append(['TCA_BASIC_ACT', get_tca_action(kwarg)])
for k, v in attrs_map:
r = kwarg.get(k, None)
if r is not None:
ret['attrs'].append([v, r])
return ret
class options(nla):
nla_map = (
('TCA_BASIC_UNSPEC', 'none'),
('TCA_BASIC_CLASSID', 'uint32'),
('TCA_BASIC_EMATCHES', 'parse_basic_ematch_tree'),
('TCA_BASIC_ACT', 'tca_act_prio'),
('TCA_BASIC_POLICE', 'hex'),
)
class parse_basic_ematch_tree(nla):
nla_map = (
('TCA_EMATCH_TREE_UNSPEC', 'none'),
('TCA_EMATCH_TREE_HDR', 'tcf_parse_header'),
('TCA_EMATCH_TREE_LIST', '*tcf_parse_list'),
)
class tcf_parse_header(nla):
fields = (('nmatches', 'H'), ('progid', 'H'))
class tcf_parse_list(nla, nla_plus_tcf_ematch_opt):
fields = (
('matchid', 'H'),
('kind', 'H'),
('flags', 'H'),
('pad', 'H'),
('opt', 's'),
)
def decode(self):
nla.decode(self)
size = 0
for field in self.fields + self.header:
if 'opt' in field:
# Ignore this field as it a hack used to brain encoder
continue
size += struct.calcsize(field[1])
start = self.offset + size
end = self.offset + self.length
data = self.data[start:end]
self['opt'] = self.parse_ematch_options(self, data)
tca_act_prio = tca_act_prio