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| Dir : //proc/self/root/opt/saltstack/salt/extras-3.10/pyroute2/ndb/main.py |
'''
.. testsetup::
from pyroute2 import NDB
ndb = NDB(sources=[{'target': 'localhost', 'kind': 'IPMock'}])
.. testsetup:: netns
from types import MethodType
from pyroute2 import NDB
ndb = NDB(sources=[{'target': 'localhost', 'kind': 'IPMock'}])
def add_mock_netns(self, netns):
return self.add_orig(target=netns, kind='IPMock', preset='netns')
ndb.sources.add_orig = ndb.sources.add
ndb.sources.add = MethodType(add_mock_netns, ndb.sources)
.. testcleanup:: *
for key, value in tuple(globals().items()):
if key.startswith('ndb') and hasattr(value, 'close'):
value.close()
NDB is a high level network management module. IT allows to manage interfaces,
routes, addresses etc. of connected systems, containers and network
namespaces.
In a nutshell, NDB collects and aggregates netlink events in an SQL database,
provides Python objects to reflect the system state, and applies changes back
to the system. The database expects updates only from the sources, no manual
SQL updates are expected normally.
.. aafig::
:scale: 80
:textual:
+----------------------------------------------------------------+
+----------------------------------------------------------------+ |
+----------------------------------------------------------------+ | |
| | | |
| kernel | |-+
| |-+
+----------------------------------------------------------------+
| | ^ | ^
| `netlink events` | | | |
| `inotify events` | | | |
| `...` | | | |
v v | v |
+--------------+ +--------------+ +--------------+
| source | | source | | source |<--\\
+--------------+ +--------------+ +--------------+ |
| | | |
| | | |
\\-----------------------+-----------------------/ |
| |
parsed netlink events | `NDB._event_queue` |
| |
v |
+------------------------+ |
| `NDB.__dbm__()` thread | |
+------------------------+ |
| |
v |
+-----------------------------+ |
| `NDB.schema.load_netlink()` | |
| `NDB.objects.*.load*()` | |
+-----------------------------+ |
| |
v |
+----------------------+ |
| SQL database | |
| `SQLite` | |
| `PostgreSQL` | |
+----------------------+ |
| |
| |
V |
+---------------+ |
+---------------+ | |
+---------------+ | | `RTNL_Object.apply()` |
| NDB object: | | |-------------------------/
| `interface` | | |
| `address` | | |
| `route` | |-+
| `...` |-+
+---------------+
.. container:: aafig-caption
object names on the diagram are clickable
The goal of NDB is to provide an easy access to RTNL info and entities via
Python objects, like `pyroute2.ndb.objects.interface` (see also:
:ref:`ndbinterfaces`), `pyroute2.ndb.objects.route` (see also:
:ref:`ndbroutes`) etc. These objects do not
only reflect the system state for the time of their instantiation, but
continuously monitor the system for relevant updates. The monitoring is
done via netlink notifications, thus no polling. Also the objects allow
to apply changes back to the system and rollback the changes.
On the other hand it's too expensive to create Python objects for all the
available RTNL entities, e.g. when there are hundreds of interfaces and
thousands of routes. Thus NDB creates objects only upon request, when
the user calls `.create()` to create new objects or runs
`ndb.<view>[selector]` (e.g. `ndb.interfaces['eth0']`) to access an
existing object.
To list existing RTNL entities NDB uses objects of the class `RecordSet`
that `yield` individual `Record` objects for every entity (see also:
:ref:`ndbreports`). An object of the `Record` class is immutable, doesn't
monitor any updates, doesn't contain any links to other objects and essentially
behaves like a simple named tuple.
.. aafig::
:scale: 80
:textual:
+---------------------+
| |
| |
| `NDB() instance` |
| |
| |
+---------------------+
|
|
+-------------------+
+-------------------+ |
+-------------------+ | |-----------+--------------------------+
| | | | | |
| | | | | |
| `View()` | | | | |
| | |-+ | |
| |-+ | |
+-------------------+ | |
+------------------+ +------------------+
| | | |
| | | |
| `.dump()` | | `.create()` |
| `.summary()` | | `.__getitem__()` |
| | | |
| | | |
+------------------+ +------------------+
| |
| |
v v
+-------------------+ +------------------+
| | +------------------+ |
| | +------------------+ | |
| `RecordSet()` | | `Interface()` | | |
| | | `Address()` | | |
| | | `Route()` | | |
+-------------------+ | `Neighbour()` | | |
| | `Rule()` | |-+
| | ... |-+
v +------------------+
+-------------------+
+-------------------+ |
+-------------------+ | |
| `filter()` | | |
| `select()` | | |
| `transform()` | | |
| `join()` | |-+
| ... |-+
+-------------------+
|
v
+-------------------+
+-------------------+ |
+-------------------+ | |
| | | |
| | | |
| `Record()` | | |
| | |-+
| |-+
+-------------------+
.. container:: aafig-caption
object names on the diagram are clickable
Here are some simple NDB usage examples. More info see in the reference
documentation below.
Print all the interface names on the system, assume we have an NDB
instance `ndb`:
.. testcode::
for interface in ndb.interfaces.dump():
print(interface.ifname)
.. testoutput::
lo
eth0
Print the routing information in the CSV format:
.. testcode::
for record in ndb.routes.summary().format('csv'):
print(record)
.. testoutput::
'target','tflags','table','ifname','dst','dst_len','gateway'
'localhost',0,254,'eth0','',0,'192.168.122.1'
'localhost',0,254,'eth0','192.168.122.0',24,
'localhost',0,255,'lo','127.0.0.0',8,
'localhost',0,255,'lo','127.0.0.1',32,
'localhost',0,255,'lo','127.255.255.255',32,
'localhost',0,255,'eth0','192.168.122.28',32,
'localhost',0,255,'eth0','192.168.122.255',32,
.. note:: More on report filtering and formatting: :ref:`ndbreports`
Print IP addresses of interfaces in several network namespaces as:
.. testcode:: netns
nslist = ['netns01',
'netns02',
'netns03']
for nsname in nslist:
ndb.sources.add(netns=nsname)
report = ndb.addresses.summary()
report.select_records(target=lambda x: x.startswith('netns'))
report.select_fields('address', 'ifname', 'target')
for line in report.format('json'):
print(line)
.. testoutput:: netns
[
{
"address": "127.0.0.1",
"ifname": "lo",
"target": "netns01"
},
{
"address": "127.0.0.1",
"ifname": "lo",
"target": "netns02"
},
{
"address": "127.0.0.1",
"ifname": "lo",
"target": "netns03"
}
]
Add an IP address on an interface:
.. testcode::
with ndb.interfaces['eth0'] as eth0:
eth0.add_ip('10.0.0.1/24')
# ---> <--- NDB waits until the address setup
Change an interface property:
.. testcode::
with ndb.interfaces['eth0'] as eth0:
eth0.set(
state='up',
address='00:11:22:33:44:55',
)
# ---> <--- NDB waits here for the changes to be applied
# the commit() is called automatically by the
# context manager's __exit__()
'''
import atexit
import ctypes
import ctypes.util
import logging
import logging.handlers
import sys
import threading
from pyroute2 import config
from pyroute2.common import basestring
##
# NDB stuff
from .auth_manager import AuthManager
from .events import ShutdownException
from .messages import cmsg
from .schema import DBProvider
from .task_manager import TaskManager
from .transaction import Transaction
from .view import SourcesView, View
try:
from urlparse import urlparse
except ImportError:
from urllib.parse import urlparse
try:
import queue
except ImportError:
import Queue as queue
log = logging.getLogger(__name__)
NDB_VIEWS_SPECS = (
('interfaces', 'interfaces'),
('addresses', 'addresses'),
('routes', 'routes'),
('neighbours', 'neighbours'),
('af_bridge_fdb', 'fdb'),
('rules', 'rules'),
('netns', 'netns'),
('af_bridge_vlans', 'vlans'),
)
class Log:
def __init__(self, log_id=None):
self.logger = None
self.state = False
self.log_id = log_id or id(self)
self.logger = logging.getLogger('pyroute2.ndb.%s' % self.log_id)
self.main = self.channel('main')
def __call__(self, target=None, level=logging.INFO):
if target is None:
return self.logger is not None
if self.logger is not None:
for handler in tuple(self.logger.handlers):
self.logger.removeHandler(handler)
if target in ('off', False):
if self.state:
self.logger.setLevel(0)
self.logger.addHandler(logging.NullHandler())
return
if target in ('on', 'stderr'):
handler = logging.StreamHandler()
elif target == 'debug':
handler = logging.StreamHandler()
level = logging.DEBUG
elif isinstance(target, basestring):
url = urlparse(target)
if not url.scheme and url.path:
handler = logging.FileHandler(url.path)
elif url.scheme == 'syslog':
handler = logging.handlers.SysLogHandler(
address=url.netloc.split(':')
)
else:
raise ValueError('logging scheme not supported')
else:
handler = target
# set formatting only for new created logging handlers
if handler is not target:
fmt = '%(asctime)s %(levelname)8s %(name)s: %(message)s'
formatter = logging.Formatter(fmt)
handler.setFormatter(formatter)
self.logger.addHandler(handler)
self.logger.setLevel(level)
@property
def on(self):
self.__call__(target='on')
@property
def off(self):
self.__call__(target='off')
def close(self):
manager = self.logger.manager
name = self.logger.name
# the loggerDict can be huge, so don't
# cache all the keys -- cache only the
# needed ones
purge_list = []
for logger in manager.loggerDict.keys():
if logger.startswith(name):
purge_list.append(logger)
# now shoot them one by one
for logger in purge_list:
del manager.loggerDict[logger]
# don't force GC, leave it to the user
del manager
del name
del purge_list
def channel(self, name):
return logging.getLogger('pyroute2.ndb.%s.%s' % (self.log_id, name))
def debug(self, *argv, **kwarg):
return self.main.debug(*argv, **kwarg)
def info(self, *argv, **kwarg):
return self.main.info(*argv, **kwarg)
def warning(self, *argv, **kwarg):
return self.main.warning(*argv, **kwarg)
def error(self, *argv, **kwarg):
return self.main.error(*argv, **kwarg)
def critical(self, *argv, **kwarg):
return self.main.critical(*argv, **kwarg)
class DeadEnd:
def put(self, *argv, **kwarg):
raise ShutdownException('shutdown in progress')
class EventQueue:
def __init__(self, *argv, **kwarg):
self._bypass = self._queue = queue.Queue(*argv, **kwarg)
def put(self, msg, source=None):
return self._queue.put((source, msg))
def shutdown(self):
self._queue = DeadEnd()
def bypass(self, msg, source=None):
return self._bypass.put((source, msg))
def get(self, *argv, **kwarg):
return self._bypass.get(*argv, **kwarg)
def qsize(self):
return self._bypass.qsize()
class AuthProxy:
def __init__(self, ndb, auth_managers):
self._ndb = ndb
self._auth_managers = auth_managers
for vtable, vname in NDB_VIEWS_SPECS:
view = View(self._ndb, vtable, auth_managers=self._auth_managers)
setattr(self, vname, view)
class NDB:
@property
def nsmanager(self):
return '%s/nsmanager' % self.localhost
def __init__(
self,
sources=None,
localhost='localhost',
db_provider='sqlite3',
db_spec=':memory:',
db_cleanup=True,
rtnl_debug=False,
log=False,
auto_netns=False,
libc=None,
):
if db_provider == 'postgres':
db_provider = 'psycopg2'
self.localhost = localhost
self.schema = None
self.libc = libc or ctypes.CDLL(
ctypes.util.find_library('c'), use_errno=True
)
self.log = Log(log_id=id(self))
self._db = None
self._dbm_thread = None
self._dbm_ready = threading.Event()
self._dbm_shutdown = threading.Event()
self._global_lock = threading.Lock()
self._event_queue = EventQueue(maxsize=100)
self.messenger = None
#
if log:
if isinstance(log, basestring):
self.log(log)
elif isinstance(log, (tuple, list)):
self.log(*log)
elif isinstance(log, dict):
self.log(**log)
else:
raise TypeError('wrong log spec format')
#
# fix sources prime
if sources is None:
if config.mock_iproute:
sources = [{'target': 'localhost', 'kind': 'IPMock'}]
else:
sources = [
{
'target': self.localhost,
'kind': 'local',
'nlm_generator': 1,
}
]
if sys.platform.startswith('linux'):
sources.append(
{'target': self.nsmanager, 'kind': 'nsmanager'}
)
elif not isinstance(sources, (list, tuple)):
raise ValueError('sources format not supported')
for spec in sources:
if 'target' not in spec:
spec['target'] = self.localhost
break
am = AuthManager(
{'obj:list': True, 'obj:read': True, 'obj:modify': True},
self.log.channel('auth'),
)
self.sources = SourcesView(self, auth_managers=[am])
self._call_registry = {}
self._nl = sources
atexit.register(self.close)
self._dbm_ready.clear()
self._dbm_error = None
self.config = {
'provider': str(DBProvider(db_provider)),
'spec': db_spec,
'rtnl_debug': rtnl_debug,
'db_cleanup': db_cleanup,
'auto_netns': auto_netns,
'recordset_pipe': 'false',
}
self.task_manager = TaskManager(self)
self._dbm_thread = threading.Thread(
target=self.task_manager.run, name='NDB main loop'
)
self._dbm_thread.daemon = True
self._dbm_thread.start()
self._dbm_ready.wait()
if self._dbm_error is not None:
raise self._dbm_error
for vtable, vname in NDB_VIEWS_SPECS:
view = View(self, vtable, auth_managers=[am])
setattr(self, vname, view)
# self.query = Query(self.schema)
def _get_view(self, table, chain=None, auth_managers=None):
return View(self, table, chain, auth_managers)
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
self.close()
def begin(self):
return Transaction(self.log.channel('transaction'))
def readonly(self):
return self.auth_proxy(
AuthManager(
{'obj:list': True, 'obj:read': True, 'obj:modify': False},
self.log.channel('auth'),
)
)
def auth_proxy(self, auth_manager):
return AuthProxy(self, [auth_manager])
def close(self):
with self._global_lock:
if self._dbm_shutdown.is_set():
return
else:
self._dbm_shutdown.set()
if hasattr(atexit, 'unregister'):
atexit.unregister(self.close)
else:
try:
atexit._exithandlers.remove((self.close, (), {}))
except ValueError:
pass
# shutdown the _dbm_thread
self._event_queue.shutdown()
self._event_queue.bypass((cmsg(None, ShutdownException()),))
self._dbm_thread.join()
# shutdown the logger -- free the resources
self.log.close()
def backup(self, spec):
self.task_manager.db_backup(spec)
def reload(self, kinds=None):
for source in self.sources.values():
if kinds is not None and source.kind in kinds:
source.restart()