OpenStack Networking (Neutron)
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

666 lines
24 KiB

# Copyright 2012 Locaweb.
# All Rights Reserved.
# 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
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# See the License for the specific language governing permissions and
# limitations under the License.
# @author: Juliano Martinez, Locaweb.
# based on
"""Implements iptables rules using linux utilities."""
import inspect
import os
import re
from neutron.agent.linux import utils as linux_utils
from neutron.common import utils
from neutron.openstack.common import excutils
from neutron.openstack.common import lockutils
from neutron.openstack.common import log as logging
LOG = logging.getLogger(__name__)
# NOTE(vish): Iptables supports chain names of up to 28 characters, and we
# add up to 12 characters to binary_name which is used as a prefix,
# so we limit it to 16 characters.
# (max_chain_name_length - len('-POSTROUTING') == 16)
def get_binary_name():
"""Grab the name of the binary we're running in."""
return os.path.basename(inspect.stack()[-1][1])[:16]
binary_name = get_binary_name()
# A length of a chain name must be less than or equal to 11 characters.
# <max length of iptables chain name> - (<binary_name> + '-') = 28-(16+1) = 11
# Number of iptables rules to print before and after a rule that causes a
# a failure during iptables-restore
def get_chain_name(chain_name, wrap=True):
if wrap:
return chain_name[:MAX_CHAIN_LEN_WRAP]
return chain_name[:MAX_CHAIN_LEN_NOWRAP]
class IptablesRule(object):
"""An iptables rule.
You shouldn't need to use this class directly, it's only used by
def __init__(self, chain, rule, wrap=True, top=False,
binary_name=binary_name, tag=None):
self.chain = get_chain_name(chain, wrap)
self.rule = rule
self.wrap = wrap = top
self.wrap_name = binary_name[:16]
self.tag = tag
def __eq__(self, other):
return ((self.chain == other.chain) and
(self.rule == other.rule) and
( == and
(self.wrap == other.wrap))
def __ne__(self, other):
return not self == other
def __str__(self):
if self.wrap:
chain = '%s-%s' % (self.wrap_name, self.chain)
chain = self.chain
return '-A %s %s' % (chain, self.rule)
class IptablesTable(object):
"""An iptables table."""
def __init__(self, binary_name=binary_name):
self.rules = []
self.remove_rules = []
self.chains = set()
self.unwrapped_chains = set()
self.remove_chains = set()
self.wrap_name = binary_name[:16]
def add_chain(self, name, wrap=True):
"""Adds a named chain to the table.
The chain name is wrapped to be unique for the component creating
it, so different components of Nova can safely create identically
named chains without interfering with one another.
At the moment, its wrapped name is <binary name>-<chain name>,
so if nova-compute creates a chain named 'OUTPUT', it'll actually
end up named 'nova-compute-OUTPUT'.
name = get_chain_name(name, wrap)
if wrap:
def _select_chain_set(self, wrap):
if wrap:
return self.chains
return self.unwrapped_chains
def ensure_remove_chain(self, name, wrap=True):
"""Ensure the chain is removed.
This removal "cascades". All rule in the chain are removed, as are
all rules in other chains that jump to it.
name = get_chain_name(name, wrap)
chain_set = self._select_chain_set(wrap)
if name not in chain_set:
self.remove_chain(name, wrap)
def remove_chain(self, name, wrap=True):
"""Remove named chain.
This removal "cascades". All rule in the chain are removed, as are
all rules in other chains that jump to it.
If the chain is not found, this is merely logged.
name = get_chain_name(name, wrap)
chain_set = self._select_chain_set(wrap)
if name not in chain_set:
LOG.warn(_('Attempted to remove chain %s which does not exist'),
if not wrap:
# non-wrapped chains and rules need to be dealt with specially,
# so we keep a list of them to be iterated over in apply()
# first, add rules to remove that have a matching chain name
self.remove_rules += [r for r in self.rules if r.chain == name]
# next, remove rules from list that have a matching chain name
self.rules = [r for r in self.rules if r.chain != name]
if not wrap:
jump_snippet = '-j %s' % name
# next, add rules to remove that have a matching jump chain
self.remove_rules += [r for r in self.rules
if jump_snippet in r.rule]
jump_snippet = '-j %s-%s' % (self.wrap_name, name)
# finally, remove rules from list that have a matching jump chain
self.rules = [r for r in self.rules
if jump_snippet not in r.rule]
def add_rule(self, chain, rule, wrap=True, top=False, tag=None):
"""Add a rule to the table.
This is just like what you'd feed to iptables, just without
the '-A <chain name>' bit at the start.
However, if you need to jump to one of your wrapped chains,
prepend its name with a '$' which will ensure the wrapping
is applied correctly.
chain = get_chain_name(chain, wrap)
if wrap and chain not in self.chains:
raise LookupError(_('Unknown chain: %r') % chain)
if '$' in rule:
rule = ' '.join(
self._wrap_target_chain(e, wrap) for e in rule.split(' '))
self.rules.append(IptablesRule(chain, rule, wrap, top, self.wrap_name,
def _wrap_target_chain(self, s, wrap):
if s.startswith('$'):
s = ('%s-%s' % (self.wrap_name, get_chain_name(s[1:], wrap)))
return s
def remove_rule(self, chain, rule, wrap=True, top=False):
"""Remove a rule from a chain.
Note: The rule must be exactly identical to the one that was added.
You cannot switch arguments around like you can with the iptables
CLI tool.
chain = get_chain_name(chain, wrap)
if '$' in rule:
rule = ' '.join(
self._wrap_target_chain(e, wrap) for e in rule.split(' '))
self.rules.remove(IptablesRule(chain, rule, wrap, top,
if not wrap:
self.remove_rules.append(IptablesRule(chain, rule, wrap, top,
except ValueError:
LOG.warn(_('Tried to remove rule that was not there:'
' %(chain)r %(rule)r %(wrap)r %(top)r'),
{'chain': chain, 'rule': rule,
'top': top, 'wrap': wrap})
def empty_chain(self, chain, wrap=True):
"""Remove all rules from a chain."""
chain = get_chain_name(chain, wrap)
chained_rules = [rule for rule in self.rules
if rule.chain == chain and rule.wrap == wrap]
for rule in chained_rules:
def clear_rules_by_tag(self, tag):
if not tag:
rules = [rule for rule in self.rules if rule.tag == tag]
for rule in rules:
class IptablesManager(object):
"""Wrapper for iptables.
See IptablesTable for some usage docs
A number of chains are set up to begin with.
First, neutron-filter-top. It's added at the top of FORWARD and OUTPUT. Its
name is not wrapped, so it's shared between the various nova workers. It's
intended for rules that need to live at the top of the FORWARD and OUTPUT
chains. It's in both the ipv4 and ipv6 set of tables.
For ipv4 and ipv6, the built-in INPUT, OUTPUT, and FORWARD filter chains
are wrapped, meaning that the "real" INPUT chain has a rule that jumps to
the wrapped INPUT chain, etc. Additionally, there's a wrapped chain named
"local" which is jumped to from neutron-filter-top.
For ipv4, the built-in PREROUTING, OUTPUT, and POSTROUTING nat chains are
wrapped in the same was as the built-in filter chains. Additionally,
there's a snat chain that is applied after the POSTROUTING chain.
def __init__(self, _execute=None, state_less=False,
root_helper=None, use_ipv6=False, namespace=None,
if _execute:
self.execute = _execute
self.execute = linux_utils.execute
self.use_ipv6 = use_ipv6
self.root_helper = root_helper
self.namespace = namespace
self.iptables_apply_deferred = False
self.wrap_name = binary_name[:16]
self.ipv4 = {'filter': IptablesTable(binary_name=self.wrap_name)}
self.ipv6 = {'filter': IptablesTable(binary_name=self.wrap_name)}
# Add a neutron-filter-top chain. It's intended to be shared
# among the various nova components. It sits at the very top
for tables in [self.ipv4, self.ipv6]:
tables['filter'].add_chain('neutron-filter-top', wrap=False)
tables['filter'].add_rule('FORWARD', '-j neutron-filter-top',
wrap=False, top=True)
tables['filter'].add_rule('OUTPUT', '-j neutron-filter-top',
wrap=False, top=True)
tables['filter'].add_rule('neutron-filter-top', '-j $local',
# Wrap the built-in chains
builtin_chains = {4: {'filter': ['INPUT', 'OUTPUT', 'FORWARD']},
6: {'filter': ['INPUT', 'OUTPUT', 'FORWARD']}}
if not state_less:
{'nat': IptablesTable(binary_name=self.wrap_name)})
builtin_chains[4].update({'nat': ['PREROUTING',
for ip_version in builtin_chains:
if ip_version == 4:
tables = self.ipv4
elif ip_version == 6:
tables = self.ipv6
for table, chains in builtin_chains[ip_version].iteritems():
for chain in chains:
tables[table].add_rule(chain, '-j $%s' %
(chain), wrap=False)
if not state_less:
# Add a neutron-postrouting-bottom chain. It's intended to be
# shared among the various nova components. We set it as the last
# chain of POSTROUTING chain.
'-j neutron-postrouting-bottom',
# We add a snat chain to the shared neutron-postrouting-bottom
# chain so that it's applied last.
'-j $snat', wrap=False)
# And then we add a float-snat chain and jump to first thing in
# the snat chain.
self.ipv4['nat'].add_rule('snat', '-j $float-snat')
def defer_apply_on(self):
self.iptables_apply_deferred = True
def defer_apply_off(self):
self.iptables_apply_deferred = False
def apply(self):
if self.iptables_apply_deferred:
def _apply(self):
lock_name = 'iptables'
if self.namespace:
lock_name += '-' + self.namespace
with lockutils.lock(lock_name, utils.SYNCHRONIZED_PREFIX, True):
LOG.debug(_('Got semaphore / lock "%s"'), lock_name)
return self._apply_synchronized()
LOG.debug(_('Semaphore / lock released "%s"'), lock_name)
def _apply_synchronized(self):
"""Apply the current in-memory set of iptables rules.
This will blow away any rules left over from previous runs of the
same component of Nova, and replace them with our current set of
rules. This happens atomically, thanks to iptables-restore.
s = [('iptables', self.ipv4)]
if self.use_ipv6:
s += [('ip6tables', self.ipv6)]
for cmd, tables in s:
args = ['%s-save' % (cmd,), '-c']
if self.namespace:
args = ['ip', 'netns', 'exec', self.namespace] + args
all_tables = self.execute(args, root_helper=self.root_helper)
all_lines = all_tables.split('\n')
for table_name, table in tables.iteritems():
start, end = self._find_table(all_lines, table_name)
all_lines[start:end] = self._modify_rules(
all_lines[start:end], table, table_name)
args = ['%s-restore' % (cmd,), '-c']
if self.namespace:
args = ['ip', 'netns', 'exec', self.namespace] + args
self.execute(args, process_input='\n'.join(all_lines),
except RuntimeError as r_error:
with excutils.save_and_reraise_exception():
line_no = int(
'iptables-restore: line ([0-9]+?) failed',
log_start = max(0, line_no - context)
log_end = line_no + context
except AttributeError:
# line error wasn't found, print all lines instead
log_start = 0
log_end = len(all_lines)
log_lines = ('%7d. %s' % (idx, l)
for idx, l in enumerate(
log_start + 1)
LOG.error(_("IPTablesManager.apply failed to apply the "
"following set of iptables rules:\n%s"),
LOG.debug(_("IPTablesManager.apply completed with success"))
def _find_table(self, lines, table_name):
if len(lines) < 3:
# length only <2 when fake iptables
return (0, 0)
start = lines.index('*%s' % table_name) - 1
except ValueError:
# Couldn't find table_name
LOG.debug(_('Unable to find table %s'), table_name)
return (0, 0)
end = lines[start:].index('COMMIT') + start + 2
return (start, end)
def _find_rules_index(self, lines):
seen_chains = False
rules_index = 0
for rules_index, rule in enumerate(lines):
if not seen_chains:
if rule.startswith(':'):
seen_chains = True
if not rule.startswith(':'):
if not seen_chains:
rules_index = 2
return rules_index
def _find_last_entry(self, filter_list, match_str):
# find a matching entry, starting from the bottom
for s in reversed(filter_list):
s = s.strip()
if match_str in s:
return s
def _modify_rules(self, current_lines, table, table_name):
unwrapped_chains = table.unwrapped_chains
chains = table.chains
remove_chains = table.remove_chains
rules = table.rules
remove_rules = table.remove_rules
if not current_lines:
fake_table = ['# Generated by iptables_manager',
'*' + table_name, 'COMMIT',
'# Completed by iptables_manager']
current_lines = fake_table
# Fill old_filter with any chains or rules we might have added,
# they could have a [packet:byte] count we want to preserve.
# Fill new_filter with any chains or rules without our name in them.
old_filter, new_filter = [], []
for line in current_lines:
(old_filter if self.wrap_name in line else
rules_index = self._find_rules_index(new_filter)
all_chains = [':%s' % name for name in unwrapped_chains]
all_chains += [':%s-%s' % (self.wrap_name, name) for name in chains]
# Iterate through all the chains, trying to find an existing
# match.
our_chains = []
for chain in all_chains:
chain_str = str(chain).strip()
old = self._find_last_entry(old_filter, chain_str)
if not old:
dup = self._find_last_entry(new_filter, chain_str)
new_filter = [s for s in new_filter if chain_str not in s.strip()]
# if no old or duplicates, use original chain
if old or dup:
chain_str = str(old or dup)
# add-on the [packet:bytes]
chain_str += ' - [0:0]'
our_chains += [chain_str]
# Iterate through all the rules, trying to find an existing
# match.
our_rules = []
bot_rules = []
for rule in rules:
rule_str = str(rule).strip()
# Further down, we weed out duplicates from the bottom of the
# list, so here we remove the dupes ahead of time.
old = self._find_last_entry(old_filter, rule_str)
if not old:
dup = self._find_last_entry(new_filter, rule_str)
new_filter = [s for s in new_filter if rule_str not in s.strip()]
# if no old or duplicates, use original rule
if old or dup:
rule_str = str(old or dup)
# backup one index so we write the array correctly
if not old:
rules_index -= 1
# add-on the [packet:bytes]
rule_str = '[0:0] ' + rule_str
# == True means we want this rule to be at the top.
our_rules += [rule_str]
bot_rules += [rule_str]
our_rules += bot_rules
new_filter[rules_index:rules_index] = our_rules
new_filter[rules_index:rules_index] = our_chains
def _strip_packets_bytes(line):
# strip any [packet:byte] counts at start or end of lines
if line.startswith(':'):
# it's a chain, for example, ":neutron-billing - [0:0]"
line = line.split(':')[1]
line = line.split(' - [', 1)[0]
elif line.startswith('['):
# it's a rule, for example, "[0:0] -A neutron-billing..."
line = line.split('] ', 1)[1]
line = line.strip()
return line
seen_chains = set()
def _weed_out_duplicate_chains(line):
# ignore [packet:byte] counts at end of lines
if line.startswith(':'):
line = _strip_packets_bytes(line)
if line in seen_chains:
return False
# Leave it alone
return True
seen_rules = set()
def _weed_out_duplicate_rules(line):
if line.startswith('['):
line = _strip_packets_bytes(line)
if line in seen_rules:
return False
# Leave it alone
return True
def _weed_out_removes(line):
# We need to find exact matches here
if line.startswith(':'):
line = _strip_packets_bytes(line)
for chain in remove_chains:
if chain == line:
return False
elif line.startswith('['):
line = _strip_packets_bytes(line)
for rule in remove_rules:
rule_str = _strip_packets_bytes(str(rule))
if rule_str == line:
return False
# Leave it alone
return True
# We filter duplicates. Go through the chains and rules, letting
# the *last* occurrence take precendence since it could have a
# non-zero [packet:byte] count we want to preserve. We also filter
# out anything in the "remove" list.
new_filter = [line for line in new_filter
if _weed_out_duplicate_chains(line) and
_weed_out_duplicate_rules(line) and
# flush lists, just in case we didn't find something
for rule in remove_rules:
return new_filter
def _get_traffic_counters_cmd_tables(self, chain, wrap=True):
name = get_chain_name(chain, wrap)
cmd_tables = [('iptables', key) for key, table in self.ipv4.items()
if name in table._select_chain_set(wrap)]
cmd_tables += [('ip6tables', key) for key, table in self.ipv6.items()
if name in table._select_chain_set(wrap)]
return cmd_tables
def get_traffic_counters(self, chain, wrap=True, zero=False):
"""Return the sum of the traffic counters of all rules of a chain."""
cmd_tables = self._get_traffic_counters_cmd_tables(chain, wrap)
if not cmd_tables:
LOG.warn(_('Attempted to get traffic counters of chain %s which '
'does not exist'), chain)
name = get_chain_name(chain, wrap)
acc = {'pkts': 0, 'bytes': 0}
for cmd, table in cmd_tables:
args = [cmd, '-t', table, '-L', name, '-n', '-v', '-x']
if zero:
if self.namespace:
args = ['ip', 'netns', 'exec', self.namespace] + args
current_table = (self.execute(args,
current_lines = current_table.split('\n')
for line in current_lines[2:]:
if not line:
data = line.split()
if (len(data) < 2 or
not data[0].isdigit() or
not data[1].isdigit()):
acc['pkts'] += int(data[0])
acc['bytes'] += int(data[1])
return acc