"""
+import logging
from ganeti import opcodes
from ganeti import constants
from ganeti import errors
from ganeti import rpc
from ganeti import cmdlib
-from ganeti import config
-from ganeti import ssconf
-from ganeti import logger
from ganeti import locking
opcodes.OpDestroyCluster: cmdlib.LUDestroyCluster,
opcodes.OpQueryClusterInfo: cmdlib.LUQueryClusterInfo,
opcodes.OpVerifyCluster: cmdlib.LUVerifyCluster,
- opcodes.OpMasterFailover: cmdlib.LUMasterFailover,
- opcodes.OpDumpClusterConfig: cmdlib.LUDumpClusterConfig,
+ opcodes.OpQueryConfigValues: cmdlib.LUQueryConfigValues,
opcodes.OpRenameCluster: cmdlib.LURenameCluster,
opcodes.OpVerifyDisks: cmdlib.LUVerifyDisks,
opcodes.OpSetClusterParams: cmdlib.LUSetClusterParams,
+ opcodes.OpRedistributeConfig: cmdlib.LURedistributeConfig,
# node lu
opcodes.OpAddNode: cmdlib.LUAddNode,
opcodes.OpQueryNodes: cmdlib.LUQueryNodes,
opcodes.OpQueryNodeVolumes: cmdlib.LUQueryNodeVolumes,
opcodes.OpRemoveNode: cmdlib.LURemoveNode,
+ opcodes.OpSetNodeParams: cmdlib.LUSetNodeParams,
+ opcodes.OpPowercycleNode: cmdlib.LUPowercycleNode,
# instance lu
opcodes.OpCreateInstance: cmdlib.LUCreateInstance,
opcodes.OpReinstallInstance: cmdlib.LUReinstallInstance,
opcodes.OpDeactivateInstanceDisks: cmdlib.LUDeactivateInstanceDisks,
opcodes.OpReplaceDisks: cmdlib.LUReplaceDisks,
opcodes.OpFailoverInstance: cmdlib.LUFailoverInstance,
+ opcodes.OpMigrateInstance: cmdlib.LUMigrateInstance,
opcodes.OpConnectConsole: cmdlib.LUConnectConsole,
opcodes.OpQueryInstances: cmdlib.LUQueryInstances,
opcodes.OpQueryInstanceData: cmdlib.LUQueryInstanceData,
opcodes.OpTestAllocator: cmdlib.LUTestAllocator,
}
- def __init__(self, context, feedback=None):
+ def __init__(self, context):
"""Constructor for Processor
Args:
interesting events are happening
"""
self.context = context
- self._feedback_fn = feedback
+ self._feedback_fn = None
self.exclusive_BGL = False
+ self.rpc = rpc.RpcRunner(context.cfg)
- def ExecOpCode(self, op):
- """Execute an opcode.
-
- Args:
- op: the opcode to be executed
+ def _ExecLU(self, lu):
+ """Logical Unit execution sequence.
"""
- if not isinstance(op, opcodes.OpCode):
- raise errors.ProgrammerError("Non-opcode instance passed"
- " to ExecOpcode")
+ write_count = self.context.cfg.write_count
+ lu.CheckPrereq()
+ hm = HooksMaster(self.rpc.call_hooks_runner, self, lu)
+ h_results = hm.RunPhase(constants.HOOKS_PHASE_PRE)
+ lu.HooksCallBack(constants.HOOKS_PHASE_PRE, h_results,
+ self._feedback_fn, None)
+ try:
+ result = lu.Exec(self._feedback_fn)
+ h_results = hm.RunPhase(constants.HOOKS_PHASE_POST)
+ result = lu.HooksCallBack(constants.HOOKS_PHASE_POST, h_results,
+ self._feedback_fn, result)
+ finally:
+ # FIXME: This needs locks if not lu_class.REQ_BGL
+ if write_count != self.context.cfg.write_count:
+ hm.RunConfigUpdate()
- lu_class = self.DISPATCH_TABLE.get(op.__class__, None)
- if lu_class is None:
- raise errors.OpCodeUnknown("Unknown opcode")
+ return result
- if lu_class.REQ_WSSTORE:
- sstore = ssconf.WritableSimpleStore()
- else:
- sstore = ssconf.SimpleStore()
+ def _LockAndExecLU(self, lu, level):
+ """Execute a Logical Unit, with the needed locks.
- write_count = self.context.cfg.write_count
+ This is a recursive function that starts locking the given level, and
+ proceeds up, till there are no more locks to acquire. Then it executes the
+ given LU and its opcodes.
- # Acquire the Big Ganeti Lock exclusively if this LU requires it, and in a
- # shared fashion otherwise (to prevent concurrent run with an exclusive LU.
- self.context.glm.acquire(locking.LEVEL_CLUSTER, [locking.BGL],
- shared=not lu_class.REQ_BGL)
- try:
- self.exclusive_BGL = lu_class.REQ_BGL
- lu = lu_class(self, op, self.context.cfg, sstore)
- lu.CheckPrereq()
- hm = HooksMaster(rpc.call_hooks_runner, self, lu)
- h_results = hm.RunPhase(constants.HOOKS_PHASE_PRE)
- lu.HooksCallBack(constants.HOOKS_PHASE_PRE, h_results,
- self._feedback_fn, None)
+ """
+ adding_locks = level in lu.add_locks
+ acquiring_locks = level in lu.needed_locks
+ if level not in locking.LEVELS:
+ if callable(self._run_notifier):
+ self._run_notifier()
+ result = self._ExecLU(lu)
+ elif adding_locks and acquiring_locks:
+ # We could both acquire and add locks at the same level, but for now we
+ # don't need this, so we'll avoid the complicated code needed.
+ raise NotImplementedError(
+ "Can't declare locks to acquire when adding others")
+ elif adding_locks or acquiring_locks:
+ lu.DeclareLocks(level)
+ share = lu.share_locks[level]
+ if acquiring_locks:
+ needed_locks = lu.needed_locks[level]
+ lu.acquired_locks[level] = self.context.glm.acquire(level,
+ needed_locks,
+ shared=share)
+ else: # adding_locks
+ add_locks = lu.add_locks[level]
+ lu.remove_locks[level] = add_locks
+ try:
+ self.context.glm.add(level, add_locks, acquired=1, shared=share)
+ except errors.LockError:
+ raise errors.OpPrereqError(
+ "Coudn't add locks (%s), probably because of a race condition"
+ " with another job, who added them first" % add_locks)
try:
- result = lu.Exec(self._feedback_fn)
- h_results = hm.RunPhase(constants.HOOKS_PHASE_POST)
- result = lu.HooksCallBack(constants.HOOKS_PHASE_POST, h_results,
- self._feedback_fn, result)
+ try:
+ if adding_locks:
+ lu.acquired_locks[level] = add_locks
+ result = self._LockAndExecLU(lu, level + 1)
+ finally:
+ if level in lu.remove_locks:
+ self.context.glm.remove(level, lu.remove_locks[level])
finally:
- # FIXME: This needs locks if not lu_class.REQ_BGL
- if write_count != self.context.cfg.write_count:
- hm.RunConfigUpdate()
- finally:
- self.context.glm.release(locking.LEVEL_CLUSTER)
- self.exclusive_BGL = False
+ if self.context.glm.is_owned(level):
+ self.context.glm.release(level)
+ else:
+ result = self._LockAndExecLU(lu, level + 1)
return result
- def ChainOpCode(self, op):
- """Chain and execute an opcode.
-
- This is used by LUs when they need to execute a child LU.
+ def ExecOpCode(self, op, feedback_fn, run_notifier):
+ """Execute an opcode.
- Args:
- - opcode: the opcode to be executed
+ @type op: an OpCode instance
+ @param op: the opcode to be executed
+ @type feedback_fn: a function that takes a single argument
+ @param feedback_fn: this function will be used as feedback from the LU
+ code to the end-user
+ @type run_notifier: callable (no arguments) or None
+ @param run_notifier: this function (if callable) will be called when
+ we are about to call the lu's Exec() method, that
+ is, after we have aquired all locks
"""
if not isinstance(op, opcodes.OpCode):
raise errors.ProgrammerError("Non-opcode instance passed"
" to ExecOpcode")
+ self._feedback_fn = feedback_fn
+ self._run_notifier = run_notifier
lu_class = self.DISPATCH_TABLE.get(op.__class__, None)
if lu_class is None:
raise errors.OpCodeUnknown("Unknown opcode")
- if lu_class.REQ_BGL and not self.exclusive_BGL:
- raise errors.ProgrammerError("LUs which require the BGL cannot"
- " be chained to granular ones.")
-
- if lu_class.REQ_WSSTORE:
- sstore = ssconf.WritableSimpleStore()
- else:
- sstore = ssconf.SimpleStore()
+ # Acquire the Big Ganeti Lock exclusively if this LU requires it, and in a
+ # shared fashion otherwise (to prevent concurrent run with an exclusive LU.
+ self.context.glm.acquire(locking.LEVEL_CLUSTER, [locking.BGL],
+ shared=not lu_class.REQ_BGL)
+ try:
+ self.exclusive_BGL = lu_class.REQ_BGL
+ lu = lu_class(self, op, self.context, self.rpc)
+ lu.ExpandNames()
+ assert lu.needed_locks is not None, "needed_locks not set by LU"
+ result = self._LockAndExecLU(lu, locking.LEVEL_INSTANCE)
+ finally:
+ self.context.glm.release(locking.LEVEL_CLUSTER)
+ self.exclusive_BGL = False
- #do_hooks = lu_class.HPATH is not None
- lu = lu_class(self, op, self.context.cfg, sstore)
- lu.CheckPrereq()
- #if do_hooks:
- # hm = HooksMaster(rpc.call_hooks_runner, self, lu)
- # h_results = hm.RunPhase(constants.HOOKS_PHASE_PRE)
- # lu.HooksCallBack(constants.HOOKS_PHASE_PRE,
- # h_results, self._feedback_fn, None)
- result = lu.Exec(self._feedback_fn)
- #if do_hooks:
- # h_results = hm.RunPhase(constants.HOOKS_PHASE_POST)
- # result = lu.HooksCallBack(constants.HOOKS_PHASE_POST,
- # h_results, self._feedback_fn, result)
return result
def LogStep(self, current, total, message):
"""Log a change in LU execution progress.
"""
- logger.Debug("Step %d/%d %s" % (current, total, message))
+ logging.debug("Step %d/%d %s", current, total, message)
self._feedback_fn("STEP %d/%d %s" % (current, total, message))
- def LogWarning(self, message, hint=None):
+ def LogWarning(self, message, *args, **kwargs):
"""Log a warning to the logs and the user.
- """
- logger.Error(message)
- self._feedback_fn(" - WARNING: %s" % message)
- if hint:
- self._feedback_fn(" Hint: %s" % hint)
+ The optional keyword argument is 'hint' and can be used to show a
+ hint to the user (presumably related to the warning). If the
+ message is empty, it will not be printed at all, allowing one to
+ show only a hint.
- def LogInfo(self, message):
+ """
+ assert not kwargs or (len(kwargs) == 1 and "hint" in kwargs), \
+ "Invalid keyword arguments for LogWarning (%s)" % str(kwargs)
+ if args:
+ message = message % tuple(args)
+ if message:
+ logging.warning(message)
+ self._feedback_fn(" - WARNING: %s" % message)
+ if "hint" in kwargs:
+ self._feedback_fn(" Hint: %s" % kwargs["hint"])
+
+ def LogInfo(self, message, *args):
"""Log an informational message to the logs and the user.
"""
- logger.Info(message)
+ if args:
+ message = message % tuple(args)
+ logging.info(message)
self._feedback_fn(" - INFO: %s" % message)
env = self.env.copy()
env["GANETI_HOOKS_PHASE"] = phase
env["GANETI_HOOKS_PATH"] = hpath
- if self.lu.sstore is not None:
- env["GANETI_CLUSTER"] = self.lu.sstore.GetClusterName()
- env["GANETI_MASTER"] = self.lu.sstore.GetMasterNode()
+ if self.lu.cfg is not None:
+ env["GANETI_CLUSTER"] = self.lu.cfg.GetClusterName()
+ env["GANETI_MASTER"] = self.lu.cfg.GetMasterNode()
env = dict([(str(key), str(val)) for key, val in env.iteritems()])
This is the main function of the HookMaster.
- Args:
- phase: the hooks phase to run
-
- Returns:
- the result of the hooks multi-node rpc call
+ @param phase: one of L{constants.HOOKS_PHASE_POST} or
+ L{constants.HOOKS_PHASE_PRE}; it denotes the hooks phase
+ @return: the processed results of the hooks multi-node rpc call
+ @raise errors.HooksFailure: on communication failure to the nodes
"""
if not self.node_list[phase]:
raise errors.HooksFailure("Communication failure")
for node_name in results:
res = results[node_name]
- if res is False or not isinstance(res, list):
- self.proc.LogWarning("Communication failure to node %s" % node_name)
+ if res.failed or res.data is False or not isinstance(res.data, list):
+ if not res.offline:
+ self.proc.LogWarning("Communication failure to node %s" %
+ node_name)
continue
- for script, hkr, output in res:
+ for script, hkr, output in res.data:
if hkr == constants.HKR_FAIL:
- output = output.strip().encode("string_escape")
errs.append((node_name, script, output))
if errs:
raise errors.HooksAbort(errs)
"""
phase = constants.HOOKS_PHASE_POST
hpath = constants.HOOKS_NAME_CFGUPDATE
- if self.lu.sstore is None:
- raise errors.ProgrammerError("Null sstore on config update hook")
- nodes = [self.lu.sstore.GetMasterNode()]
+ nodes = [self.lu.cfg.GetMasterNode()]
results = self._RunWrapper(nodes, hpath, phase)