#
#
-# Copyright (C) 2009 Google Inc.
+# Copyright (C) 2009, 2010 Google Inc.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
and can proceed even if some udp packets are lost. It's up to the user to
reschedule queries if they haven't received responses and they need them.
-Example usage:
+Example usage::
+
client = ConfdClient(...) # includes callback specification
req = confd_client.ConfdClientRequest(type=constants.CONFD_REQ_PING)
client.SendRequest(req)
confirming what you already got.
"""
-import socket
+
+# pylint: disable-msg=E0203
+
+# E0203: Access to member %r before its definition, since we use
+# objects.py which doesn't explicitely initialise its members
+
import time
import random
from ganeti import daemon # contains AsyncUDPSocket
from ganeti import errors
from ganeti import confd
+from ganeti import ssconf
+from ganeti import compat
+from ganeti import netutils
class ConfdAsyncUDPClient(daemon.AsyncUDPSocket):
implement a non-asyncore based client library.
"""
- def __init__(self, client):
+ def __init__(self, client, family):
"""Constructor for ConfdAsyncUDPClient
@type client: L{ConfdClient}
@param client: client library, to pass the datagrams to
"""
- daemon.AsyncUDPSocket.__init__(self)
+ daemon.AsyncUDPSocket.__init__(self, family)
self.client = client
# this method is overriding a daemon.AsyncUDPSocket method
self.client.HandleResponse(payload, ip, port)
+class _Request(object):
+ """Request status structure.
+
+ @ivar request: the request data
+ @ivar args: any extra arguments for the callback
+ @ivar expiry: the expiry timestamp of the request
+ @ivar sent: the set of contacted peers
+ @ivar rcvd: the set of peers who replied
+
+ """
+ def __init__(self, request, args, expiry, sent):
+ self.request = request
+ self.args = args
+ self.expiry = expiry
+ self.sent = frozenset(sent)
+ self.rcvd = set()
+
+
class ConfdClient:
"""Send queries to confd, and get back answers.
getting back answers, this is an asynchronous library. It can either work
through asyncore or with your own handling.
+ @type _requests: dict
+ @ivar _requests: dictionary indexes by salt, which contains data
+ about the outstanding requests; the values are objects of type
+ L{_Request}
+
"""
def __init__(self, hmac_key, peers, callback, port=None, logger=None):
"""Constructor for ConfdClient
@type callback: f(L{ConfdUpcallPayload})
@param callback: function to call when getting answers
@type port: integer
- @keyword port: confd port (default: use GetDaemonPort)
- @type logger: L{logging.Logger}
- @keyword logger: optional logger for internal conditions
+ @param port: confd port (default: use GetDaemonPort)
+ @type logger: logging.Logger
+ @param logger: optional logger for internal conditions
"""
- if not isinstance(peers, list):
- raise errors.ProgrammerError("peers must be a list")
if not callable(callback):
raise errors.ProgrammerError("callback must be callable")
- self._peers = peers
+ self.UpdatePeerList(peers)
+ self._SetPeersAddressFamily()
self._hmac_key = hmac_key
- self._socket = ConfdAsyncUDPClient(self)
+ self._socket = ConfdAsyncUDPClient(self, self._family)
self._callback = callback
self._confd_port = port
self._logger = logger
self._requests = {}
- self._expire_requests = []
if self._confd_port is None:
- self._confd_port = utils.GetDaemonPort(constants.CONFD)
+ self._confd_port = netutils.GetDaemonPort(constants.CONFD)
+
+ def UpdatePeerList(self, peers):
+ """Update the list of peers
+
+ @type peers: list
+ @param peers: list of peer nodes
+
+ """
+ # we are actually called from init, so:
+ # pylint: disable-msg=W0201
+ if not isinstance(peers, list):
+ raise errors.ProgrammerError("peers must be a list")
+ # make a copy of peers, since we're going to shuffle the list, later
+ self._peers = list(peers)
def _PackRequest(self, request, now=None):
"""Prepare a request to be sent on the wire.
"""
now = time.time()
- while self._expire_requests:
- expire_time, rsalt = self._expire_requests[0]
- if now >= expire_time:
- self._expire_requests.pop(0)
- (request, args) = self._requests[rsalt]
+ for rsalt, rq in self._requests.items():
+ if now >= rq.expiry:
del self._requests[rsalt]
client_reply = ConfdUpcallPayload(salt=rsalt,
type=UPCALL_EXPIRE,
- orig_request=request,
- extra_args=args,
+ orig_request=rq.request,
+ extra_args=rq.args,
client=self,
)
self._callback(client_reply)
- else:
- break
- def SendRequest(self, request, args=None, coverage=None):
+ def SendRequest(self, request, args=None, coverage=0, async=True):
"""Send a confd request to some MCs
@type request: L{objects.ConfdRequest}
@param request: the request to send
@type args: tuple
- @keyword args: additional callback arguments
+ @param args: additional callback arguments
@type coverage: integer
- @keyword coverage: number of remote nodes to contact
+ @param coverage: number of remote nodes to contact; if default
+ (0), it will use a reasonable default
+ (L{ganeti.constants.CONFD_DEFAULT_REQ_COVERAGE}), if -1 is
+ passed, it will use the maximum number of peers, otherwise the
+ number passed in will be used
+ @type async: boolean
+ @param async: handle the write asynchronously
"""
- if coverage is None:
+ if coverage == 0:
coverage = min(len(self._peers), constants.CONFD_DEFAULT_REQ_COVERAGE)
+ elif coverage == -1:
+ coverage = len(self._peers)
if coverage > len(self._peers):
raise errors.ConfdClientError("Not enough MCs known to provide the"
except errors.UdpDataSizeError:
raise errors.ConfdClientError("Request too big")
- self._requests[request.rsalt] = (request, args)
expire_time = now + constants.CONFD_CLIENT_EXPIRE_TIMEOUT
- self._expire_requests.append((expire_time, request.rsalt))
+ self._requests[request.rsalt] = _Request(request, args, expire_time,
+ targets)
+
+ if not async:
+ self.FlushSendQueue()
def HandleResponse(self, payload, ip, port):
"""Asynchronous handler for a confd reply
return
try:
- (request, args) = self._requests[salt]
+ rq = self._requests[salt]
except KeyError:
if self._logger:
self._logger.debug("Discarding unknown (expired?) reply: %s" % err)
return
+ rq.rcvd.add(ip)
+
client_reply = ConfdUpcallPayload(salt=salt,
type=UPCALL_REPLY,
server_reply=answer,
- orig_request=request,
+ orig_request=rq.request,
server_ip=ip,
server_port=port,
- extra_args=args,
+ extra_args=rq.args,
client=self,
)
self._callback(client_reply)
finally:
self.ExpireRequests()
+ def FlushSendQueue(self):
+ """Send out all pending requests.
+
+ Can be used for synchronous client use.
+
+ """
+ while self._socket.writable():
+ self._socket.handle_write()
+
+ def ReceiveReply(self, timeout=1):
+ """Receive one reply.
+
+ @type timeout: float
+ @param timeout: how long to wait for the reply
+ @rtype: boolean
+ @return: True if some data has been handled, False otherwise
+
+ """
+ return self._socket.process_next_packet(timeout=timeout)
+
+ @staticmethod
+ def _NeededReplies(peer_cnt):
+ """Compute the minimum safe number of replies for a query.
+
+ The algorithm is designed to work well for both small and big
+ number of peers:
+ - for less than three, we require all responses
+ - for less than five, we allow one miss
+ - otherwise, half the number plus one
+
+ This guarantees that we progress monotonically: 1->1, 2->2, 3->2,
+ 4->2, 5->3, 6->3, 7->4, etc.
+
+ @type peer_cnt: int
+ @param peer_cnt: the number of peers contacted
+ @rtype: int
+ @return: the number of replies which should give a safe coverage
+
+ """
+ if peer_cnt < 3:
+ return peer_cnt
+ elif peer_cnt < 5:
+ return peer_cnt - 1
+ else:
+ return int(peer_cnt/2) + 1
+
+ def WaitForReply(self, salt, timeout=constants.CONFD_CLIENT_EXPIRE_TIMEOUT):
+ """Wait for replies to a given request.
+
+ This method will wait until either the timeout expires or a
+ minimum number (computed using L{_NeededReplies}) of replies are
+ received for the given salt. It is useful when doing synchronous
+ calls to this library.
+
+ @param salt: the salt of the request we want responses for
+ @param timeout: the maximum timeout (should be less or equal to
+ L{ganeti.constants.CONFD_CLIENT_EXPIRE_TIMEOUT}
+ @rtype: tuple
+ @return: a tuple of (timed_out, sent_cnt, recv_cnt); if the
+ request is unknown, timed_out will be true and the counters
+ will be zero
+
+ """
+ def _CheckResponse():
+ if salt not in self._requests:
+ # expired?
+ if self._logger:
+ self._logger.debug("Discarding unknown/expired request: %s" % salt)
+ return MISSING
+ rq = self._requests[salt]
+ if len(rq.rcvd) >= expected:
+ # already got all replies
+ return (False, len(rq.sent), len(rq.rcvd))
+ # else wait, using default timeout
+ self.ReceiveReply()
+ raise utils.RetryAgain()
+
+ MISSING = (True, 0, 0)
+
+ if salt not in self._requests:
+ return MISSING
+ # extend the expire time with the current timeout, so that we
+ # don't get the request expired from under us
+ rq = self._requests[salt]
+ rq.expiry += timeout
+ sent = len(rq.sent)
+ expected = self._NeededReplies(sent)
+
+ try:
+ return utils.Retry(_CheckResponse, 0, timeout)
+ except utils.RetryTimeout:
+ if salt in self._requests:
+ rq = self._requests[salt]
+ return (True, len(rq.sent), len(rq.rcvd))
+ else:
+ return MISSING
+
+ def _SetPeersAddressFamily(self):
+ if not self._peers:
+ raise errors.ConfdClientError("Peer list empty")
+ try:
+ peer = self._peers[0]
+ self._family = netutils.IPAddress.GetAddressFamily(peer)
+ for peer in self._peers[1:]:
+ if netutils.IPAddress.GetAddressFamily(peer) != self._family:
+ raise errors.ConfdClientError("Peers must be of same address family")
+ except errors.IPAddressError:
+ raise errors.ConfdClientError("Peer address %s invalid" % peer)
+
# UPCALL_REPLY: server reply upcall
# has all ConfdUpcallPayload fields populated
class ConfdFilterCallback:
"""Callback that calls another callback, but filters duplicate results.
+ @ivar consistent: a dictionary indexed by salt; for each salt, if
+ all responses ware identical, this will be True; this is the
+ expected state on a healthy cluster; on inconsistent or
+ partitioned clusters, this might be False, if we see answers
+ with the same serial but different contents
+
"""
def __init__(self, callback, logger=None):
"""Constructor for ConfdFilterCallback
@type callback: f(L{ConfdUpcallPayload})
@param callback: function to call when getting answers
- @type logger: L{logging.Logger}
- @keyword logger: optional logger for internal conditions
+ @type logger: logging.Logger
+ @param logger: optional logger for internal conditions
"""
if not callable(callback):
self._logger = logger
# answers contains a dict of salt -> answer
self._answers = {}
+ self.consistent = {}
def _LogFilter(self, salt, new_reply, old_reply):
if not self._logger:
# if we have no answer we have received none, before the expiration.
if up.salt in self._answers:
del self._answers[up.salt]
+ if up.salt in self.consistent:
+ del self.consistent[up.salt]
def _HandleReply(self, up):
"""Handle a single confd reply, and decide whether to filter it.
"""
filter_upcall = False
salt = up.salt
+ if salt not in self.consistent:
+ self.consistent[salt] = True
if salt not in self._answers:
# first answer for a query (don't filter, and record)
self._answers[salt] = up.server_reply
# else: different content, pass up a second answer
else:
# older or same-version answer (duplicate or outdated, filter)
+ if (up.server_reply.serial == self._answers[salt].serial and
+ up.server_reply.answer != self._answers[salt].answer):
+ self.consistent[salt] = False
filter_upcall = True
self._LogFilter(salt, up.server_reply, self._answers[salt])
if not filter_upcall:
self._callback(up)
+
+class ConfdCountingCallback:
+ """Callback that calls another callback, and counts the answers
+
+ """
+ def __init__(self, callback, logger=None):
+ """Constructor for ConfdCountingCallback
+
+ @type callback: f(L{ConfdUpcallPayload})
+ @param callback: function to call when getting answers
+ @type logger: logging.Logger
+ @param logger: optional logger for internal conditions
+
+ """
+ if not callable(callback):
+ raise errors.ProgrammerError("callback must be callable")
+
+ self._callback = callback
+ self._logger = logger
+ # answers contains a dict of salt -> count
+ self._answers = {}
+
+ def RegisterQuery(self, salt):
+ if salt in self._answers:
+ raise errors.ProgrammerError("query already registered")
+ self._answers[salt] = 0
+
+ def AllAnswered(self):
+ """Have all the registered queries received at least an answer?
+
+ """
+ return compat.all(self._answers.values())
+
+ def _HandleExpire(self, up):
+ # if we have no answer we have received none, before the expiration.
+ if up.salt in self._answers:
+ del self._answers[up.salt]
+
+ def _HandleReply(self, up):
+ """Handle a single confd reply, and decide whether to filter it.
+
+ @rtype: boolean
+ @return: True if the reply should be filtered, False if it should be passed
+ on to the up-callback
+
+ """
+ if up.salt in self._answers:
+ self._answers[up.salt] += 1
+
+ def __call__(self, up):
+ """Filtering callback
+
+ @type up: L{ConfdUpcallPayload}
+ @param up: upper callback
+
+ """
+ if up.type == UPCALL_REPLY:
+ self._HandleReply(up)
+ elif up.type == UPCALL_EXPIRE:
+ self._HandleExpire(up)
+ self._callback(up)
+
+
+class StoreResultCallback:
+ """Callback that simply stores the most recent answer.
+
+ @ivar _answers: dict of salt to (have_answer, reply)
+
+ """
+ _NO_KEY = (False, None)
+
+ def __init__(self):
+ """Constructor for StoreResultCallback
+
+ """
+ # answers contains a dict of salt -> best result
+ self._answers = {}
+
+ def GetResponse(self, salt):
+ """Return the best match for a salt
+
+ """
+ return self._answers.get(salt, self._NO_KEY)
+
+ def _HandleExpire(self, up):
+ """Expiration handler.
+
+ """
+ if up.salt in self._answers and self._answers[up.salt] == self._NO_KEY:
+ del self._answers[up.salt]
+
+ def _HandleReply(self, up):
+ """Handle a single confd reply, and decide whether to filter it.
+
+ """
+ self._answers[up.salt] = (True, up)
+
+ def __call__(self, up):
+ """Filtering callback
+
+ @type up: L{ConfdUpcallPayload}
+ @param up: upper callback
+
+ """
+ if up.type == UPCALL_REPLY:
+ self._HandleReply(up)
+ elif up.type == UPCALL_EXPIRE:
+ self._HandleExpire(up)
+
+
+def GetConfdClient(callback):
+ """Return a client configured using the given callback.
+
+ This is handy to abstract the MC list and HMAC key reading.
+
+ @attention: This should only be called on nodes which are part of a
+ cluster, since it depends on a valid (ganeti) data directory;
+ for code running outside of a cluster, you need to create the
+ client manually
+
+ """
+ ss = ssconf.SimpleStore()
+ mc_file = ss.KeyToFilename(constants.SS_MASTER_CANDIDATES_IPS)
+ mc_list = utils.ReadFile(mc_file).splitlines()
+ hmac_key = utils.ReadFile(constants.CONFD_HMAC_KEY)
+ return ConfdClient(hmac_key, mc_list, callback)