return cfg.GetNdParams(node)[constants.ND_OOB_PROGRAM]
+def _IsExclusiveStorageEnabledNode(cfg, node):
+ """Whether exclusive_storage is in effect for the given node.
+
+ @type cfg: L{config.ConfigWriter}
+ @param cfg: The cluster configuration
+ @type node: L{objects.Node}
+ @param node: The node
+ @rtype: bool
+ @return: The effective value of exclusive_storage
+
+ """
+ return cfg.GetNdParams(node)[constants.ND_EXCLUSIVE_STORAGE]
+
+
+def _IsExclusiveStorageEnabledNodeName(cfg, nodename):
+ """Whether exclusive_storage is in effect for the given node.
+
+ @type cfg: L{config.ConfigWriter}
+ @param cfg: The cluster configuration
+ @type nodename: string
+ @param nodename: The node
+ @rtype: bool
+ @return: The effective value of exclusive_storage
+ @raise errors.OpPrereqError: if no node exists with the given name
+
+ """
+ ni = cfg.GetNodeInfo(nodename)
+ if ni is None:
+ raise errors.OpPrereqError("Invalid node name %s" % nodename,
+ errors.ECODE_NOENT)
+ return _IsExclusiveStorageEnabledNode(cfg, ni)
+
+
def _CopyLockList(names):
"""Makes a copy of a list of lock names.
return env
-def _BuildNetworkHookEnvByObject(net):
- """Builds network related env varliables for hooks
-
- @type net: L{objects.Network}
- @param net: the network object
-
- """
- args = {
- "name": net.name,
- "subnet": net.network,
- "gateway": net.gateway,
- "network6": net.network6,
- "gateway6": net.gateway6,
- "network_type": net.network_type,
- "mac_prefix": net.mac_prefix,
- "tags": net.tags,
- }
-
- return _BuildNetworkHookEnv(**args) # pylint: disable=W0142
-
-
def _BuildInstanceHookEnv(name, primary_node, secondary_nodes, os_type, status,
minmem, maxmem, vcpus, nics, disk_template, disks,
bep, hvp, hypervisor_name, tags):
locking.LEVEL_INSTANCE: inst_names,
locking.LEVEL_NODEGROUP: [self.group_uuid],
locking.LEVEL_NODE: [],
+
+ # This opcode is run by watcher every five minutes and acquires all nodes
+ # for a group. It doesn't run for a long time, so it's better to acquire
+ # the node allocation lock as well.
+ locking.LEVEL_NODE_ALLOC: locking.ALL_SET,
}
self.share_locks = _ShareAll()
constants.MIN_VG_SIZE)
_ErrorIf(vgstatus, constants.CV_ENODELVM, node, vgstatus)
- # check pv names
- pvlist = nresult.get(constants.NV_PVLIST, None)
- test = pvlist is None
+ # check pv names (and possibly sizes)
+ pvlist_dict = nresult.get(constants.NV_PVLIST, None)
+ test = pvlist_dict is None
_ErrorIf(test, constants.CV_ENODELVM, node, "Can't get PV list from node")
if not test:
+ pvlist = map(objects.LvmPvInfo.FromDict, pvlist_dict)
# check that ':' is not present in PV names, since it's a
# special character for lvcreate (denotes the range of PEs to
# use on the PV)
- for _, pvname, owner_vg in pvlist:
- test = ":" in pvname
+ for pv in pvlist:
+ test = ":" in pv.name
_ErrorIf(test, constants.CV_ENODELVM, node,
"Invalid character ':' in PV '%s' of VG '%s'",
- pvname, owner_vg)
+ pv.name, pv.vg_name)
def _VerifyNodeBridges(self, ninfo, nresult, bridges):
"""Check the node bridges.
locking.LEVEL_INSTANCE: [],
locking.LEVEL_NODEGROUP: [],
locking.LEVEL_NODE: [],
+
+ # This opcode is acquires all node locks in a group. LUClusterVerifyDisks
+ # starts one instance of this opcode for every group, which means all
+ # nodes will be locked for a short amount of time, so it's better to
+ # acquire the node allocation lock as well.
+ locking.LEVEL_NODE_ALLOC: locking.ALL_SET,
}
def DeclareLocks(self, level):
def ExpandNames(self):
if self.op.instances:
self.wanted_names = _GetWantedInstances(self, self.op.instances)
+ # Not getting the node allocation lock as only a specific set of
+ # instances (and their nodes) is going to be acquired
self.needed_locks = {
locking.LEVEL_NODE_RES: [],
locking.LEVEL_INSTANCE: self.wanted_names,
self.needed_locks = {
locking.LEVEL_NODE_RES: locking.ALL_SET,
locking.LEVEL_INSTANCE: locking.ALL_SET,
+
+ # This opcode is acquires the node locks for all instances
+ locking.LEVEL_NODE_ALLOC: locking.ALL_SET,
}
+
self.share_locks = {
locking.LEVEL_NODE_RES: 1,
locking.LEVEL_INSTANCE: 0,
+ locking.LEVEL_NODE_ALLOC: 1,
}
def DeclareLocks(self, level):
def ExpandNames(self):
# FIXME: in the future maybe other cluster params won't require checking on
# all nodes to be modified.
+ # FIXME: This opcode changes cluster-wide settings. Is acquiring all
+ # resource locks the right thing, shouldn't it be the BGL instead?
self.needed_locks = {
locking.LEVEL_NODE: locking.ALL_SET,
locking.LEVEL_INSTANCE: locking.ALL_SET,
locking.LEVEL_NODEGROUP: locking.ALL_SET,
+ locking.LEVEL_NODE_ALLOC: locking.ALL_SET,
}
- self.share_locks = {
- locking.LEVEL_NODE: 1,
- locking.LEVEL_INSTANCE: 1,
- locking.LEVEL_NODEGROUP: 1,
- }
+ self.share_locks = _ShareAll()
def BuildHooksEnv(self):
"""Build hooks env.
def ExpandNames(self):
self.needed_locks = {
locking.LEVEL_NODE: locking.ALL_SET,
+ locking.LEVEL_NODE_ALLOC: locking.ALL_SET,
}
- self.share_locks[locking.LEVEL_NODE] = 1
+ self.share_locks = _ShareAll()
def Exec(self, feedback_fn):
"""Redistribute the configuration.
locking.LEVEL_NODE: lock_names,
}
+ self.share_locks[locking.LEVEL_NODE_ALLOC] = 1
+
+ if not self.op.node_names:
+ # Acquire node allocation lock only if all nodes are affected
+ self.needed_locks[locking.LEVEL_NODE_ALLOC] = locking.ALL_SET
+
def CheckPrereq(self):
"""Check prerequisites.
if self.do_locking:
# If any non-static field is requested we need to lock the nodes
lu.needed_locks[locking.LEVEL_NODE] = self.wanted
+ lu.needed_locks[locking.LEVEL_NODE_ALLOC] = locking.ALL_SET
def DeclareLocks(self, lu, level):
pass
def ExpandNames(self):
self.share_locks = _ShareAll()
- self.needed_locks = {}
- if not self.op.nodes:
- self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET
+ if self.op.nodes:
+ self.needed_locks = {
+ locking.LEVEL_NODE: _GetWantedNodes(self, self.op.nodes),
+ }
else:
- self.needed_locks[locking.LEVEL_NODE] = \
- _GetWantedNodes(self, self.op.nodes)
+ self.needed_locks = {
+ locking.LEVEL_NODE: locking.ALL_SET,
+ locking.LEVEL_NODE_ALLOC: locking.ALL_SET,
+ }
def Exec(self, feedback_fn):
"""Computes the list of nodes and their attributes.
def ExpandNames(self):
if self.lock_all:
- self.needed_locks = {locking.LEVEL_NODE: locking.ALL_SET}
+ self.needed_locks = {
+ locking.LEVEL_NODE: locking.ALL_SET,
+
+ # Block allocations when all nodes are locked
+ locking.LEVEL_NODE_ALLOC: locking.ALL_SET,
+ }
else:
- self.needed_locks = {locking.LEVEL_NODE: self.op.node_name}
+ self.needed_locks = {
+ locking.LEVEL_NODE: self.op.node_name,
+ }
# Since modifying a node can have severe effects on currently running
# operations the resource lock is at least acquired in shared mode
self.needed_locks[locking.LEVEL_NODE_RES] = \
self.needed_locks[locking.LEVEL_NODE]
- # Get node resource and instance locks in shared mode; they are not used
- # for anything but read-only access
- self.share_locks[locking.LEVEL_NODE_RES] = 1
- self.share_locks[locking.LEVEL_INSTANCE] = 1
+ # Get all locks except nodes in shared mode; they are not used for anything
+ # but read-only access
+ self.share_locks = _ShareAll()
+ self.share_locks[locking.LEVEL_NODE] = 0
+ self.share_locks[locking.LEVEL_NODE_RES] = 0
+ self.share_locks[locking.LEVEL_NODE_ALLOC] = 0
if self.lock_instances:
self.needed_locks[locking.LEVEL_INSTANCE] = \
drain_flag = NotImplemented
if query.CQ_WATCHER_PAUSE in self.requested_data:
- watcher_pause = utils.ReadWatcherPauseFile(pathutils.WATCHER_PAUSEFILE)
+ master_name = lu.cfg.GetMasterNode()
+
+ result = lu.rpc.call_get_watcher_pause(master_name)
+ result.Raise("Can't retrieve watcher pause from master node '%s'" %
+ master_name)
+
+ watcher_pause = result.payload
else:
watcher_pause = NotImplemented
def _CheckNodeFreeMemory(lu, node, reason, requested, hypervisor_name):
"""Checks if a node has enough free memory.
- This function check if a given node has the needed amount of free
+ This function checks if a given node has the needed amount of free
memory. In case the node has less memory or we cannot get the
- information from the node, this function raise an OpPrereqError
+ information from the node, this function raises an OpPrereqError
exception.
@type lu: C{LogicalUnit}
def _CheckNodesFreeDiskPerVG(lu, nodenames, req_sizes):
- """Checks if nodes have enough free disk space in the all VGs.
+ """Checks if nodes have enough free disk space in all the VGs.
- This function check if all given nodes have the needed amount of
+ This function checks if all given nodes have the needed amount of
free disk. In case any node has less disk or we cannot get the
- information from the node, this function raise an OpPrereqError
+ information from the node, this function raises an OpPrereqError
exception.
@type lu: C{LogicalUnit}
def _CheckNodesFreeDiskOnVG(lu, nodenames, vg, requested):
"""Checks if nodes have enough free disk space in the specified VG.
- This function check if all given nodes have the needed amount of
+ This function checks if all given nodes have the needed amount of
free disk. In case any node has less disk or we cannot get the
- information from the node, this function raise an OpPrereqError
+ information from the node, this function raises an OpPrereqError
exception.
@type lu: C{LogicalUnit}
assert self.instance is not None, \
"Cannot retrieve locked instance %s" % self.op.instance_name
- _CheckInstanceState(self, self.instance, INSTANCE_ONLINE)
+ if not self.op.force:
+ _CheckInstanceState(self, self.instance, INSTANCE_ONLINE)
+ else:
+ self.LogWarning("Ignoring offline instance check")
self.primary_offline = \
self.cfg.GetNodeInfo(self.instance.primary_node).offline
node_current = instance.primary_node
timeout = self.op.timeout
- if not self.op.no_remember:
+ # If the instance is offline we shouldn't mark it as down, as that
+ # resets the offline flag.
+ if not self.op.no_remember and instance.admin_state in INSTANCE_ONLINE:
self.cfg.MarkInstanceDown(instance.name)
if self.primary_offline:
HTYPE = constants.HTYPE_INSTANCE
REQ_BGL = False
- _MODIFYABLE = frozenset([
+ _MODIFYABLE = compat.UniqueFrozenset([
constants.IDISK_SIZE,
constants.IDISK_MODE,
])
# TODO: Implement support changing VG while recreating
constants.IDISK_VG,
constants.IDISK_METAVG,
+ constants.IDISK_PROVIDER,
]))
def _RunAllocator(self):
def ExpandNames(self):
self._ExpandAndLockInstance()
self.recalculate_locks[locking.LEVEL_NODE] = constants.LOCKS_APPEND
+
if self.op.nodes:
self.op.nodes = [_ExpandNodeName(self.cfg, n) for n in self.op.nodes]
self.needed_locks[locking.LEVEL_NODE] = list(self.op.nodes)
if self.op.iallocator:
# iallocator will select a new node in the same group
self.needed_locks[locking.LEVEL_NODEGROUP] = []
+ self.needed_locks[locking.LEVEL_NODE_ALLOC] = locking.ALL_SET
+
self.needed_locks[locking.LEVEL_NODE_RES] = []
def DeclareLocks(self, level):
for group_uuid in self.owned_locks(locking.LEVEL_NODEGROUP):
self.needed_locks[locking.LEVEL_NODE].extend(
self.cfg.GetNodeGroup(group_uuid).members)
+
+ assert locking.NAL in self.owned_locks(locking.LEVEL_NODE_ALLOC)
elif not self.op.nodes:
self._LockInstancesNodes(primary_only=False)
elif level == locking.LEVEL_NODE_RES:
# Release unneeded node and node resource locks
_ReleaseLocks(self, locking.LEVEL_NODE, keep=self.op.nodes)
_ReleaseLocks(self, locking.LEVEL_NODE_RES, keep=self.op.nodes)
+ _ReleaseLocks(self, locking.LEVEL_NODE_ALLOC)
+
+ assert not self.glm.is_owned(locking.LEVEL_NODE_ALLOC)
def Exec(self, feedback_fn):
"""Recreate the disks.
lu.needed_locks[locking.LEVEL_NODE_RES] = []
lu.recalculate_locks[locking.LEVEL_NODE_RES] = constants.LOCKS_REPLACE
+ # The node allocation lock is actually only needed for replicated instances
+ # (e.g. DRBD8) and if an iallocator is used.
+ lu.needed_locks[locking.LEVEL_NODE_ALLOC] = []
+
def _DeclareLocksForMigration(lu, level):
"""Declares locks for L{TLMigrateInstance}.
@param level: Lock level
"""
- if level == locking.LEVEL_NODE:
+ if level == locking.LEVEL_NODE_ALLOC:
+ assert lu.op.instance_name in lu.owned_locks(locking.LEVEL_INSTANCE)
+
instance = lu.cfg.GetInstanceInfo(lu.op.instance_name)
+
+ # Node locks are already declared here rather than at LEVEL_NODE as we need
+ # the instance object anyway to declare the node allocation lock.
if instance.disk_template in constants.DTS_EXT_MIRROR:
if lu.op.target_node is None:
lu.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET
+ lu.needed_locks[locking.LEVEL_NODE_ALLOC] = locking.ALL_SET
else:
lu.needed_locks[locking.LEVEL_NODE] = [instance.primary_node,
lu.op.target_node]
del lu.recalculate_locks[locking.LEVEL_NODE]
else:
lu._LockInstancesNodes() # pylint: disable=W0212
+
+ elif level == locking.LEVEL_NODE:
+ # Node locks are declared together with the node allocation lock
+ assert (lu.needed_locks[locking.LEVEL_NODE] or
+ lu.needed_locks[locking.LEVEL_NODE] is locking.ALL_SET)
+
elif level == locking.LEVEL_NODE_RES:
# Copy node locks
lu.needed_locks[locking.LEVEL_NODE_RES] = \
errors.ECODE_STATE)
if instance.disk_template in constants.DTS_EXT_MIRROR:
+ assert locking.NAL in self.lu.owned_locks(locking.LEVEL_NODE_ALLOC)
+
_CheckIAllocatorOrNode(self.lu, "iallocator", "target_node")
if self.lu.op.iallocator:
# in the LU
_ReleaseLocks(self.lu, locking.LEVEL_NODE,
keep=[instance.primary_node, self.target_node])
+ _ReleaseLocks(self.lu, locking.LEVEL_NODE_ALLOC)
else:
+ assert not self.lu.glm.is_owned(locking.LEVEL_NODE_ALLOC)
+
secondary_nodes = instance.secondary_nodes
if not secondary_nodes:
raise errors.ConfigurationError("No secondary node but using"
"""Run the allocator based on input opcode.
"""
+ assert locking.NAL in self.lu.owned_locks(locking.LEVEL_NODE_ALLOC)
+
# FIXME: add a self.ignore_ipolicy option
req = iallocator.IAReqRelocate(name=self.instance_name,
relocate_from=[self.instance.primary_node])
self._GoReconnect(False)
self._WaitUntilSync()
- # If the instance's disk template is `rbd' and there was a successful
- # migration, unmap the device from the source node.
- if self.instance.disk_template == constants.DT_RBD:
+ # If the instance's disk template is `rbd' or `ext' and there was a
+ # successful migration, unmap the device from the source node.
+ if self.instance.disk_template in (constants.DT_RBD, constants.DT_EXT):
disks = _ExpandCheckDisks(instance, instance.disks)
self.feedback_fn("* unmapping instance's disks from %s" % source_node)
for disk in disks:
"""
(disk,) = _AnnotateDiskParams(instance, [device], lu.cfg)
+ excl_stor = _IsExclusiveStorageEnabledNodeName(lu.cfg, node)
return _CreateBlockDevInner(lu, node, instance, disk, force_create, info,
- force_open)
+ force_open, excl_stor)
def _CreateBlockDevInner(lu, node, instance, device, force_create,
- info, force_open):
+ info, force_open, excl_stor):
"""Create a tree of block devices on a given node.
If this device type has to be created on secondaries, create it and
L{backend.BlockdevCreate} function where it specifies
whether we run on primary or not, and it affects both
the child assembly and the device own Open() execution
+ @type excl_stor: boolean
+ @param excl_stor: Whether exclusive_storage is active for the node
"""
if device.CreateOnSecondary():
if device.children:
for child in device.children:
_CreateBlockDevInner(lu, node, instance, child, force_create,
- info, force_open)
+ info, force_open, excl_stor)
if not force_create:
return
- _CreateSingleBlockDev(lu, node, instance, device, info, force_open)
+ _CreateSingleBlockDev(lu, node, instance, device, info, force_open,
+ excl_stor)
-def _CreateSingleBlockDev(lu, node, instance, device, info, force_open):
+def _CreateSingleBlockDev(lu, node, instance, device, info, force_open,
+ excl_stor):
"""Create a single block device on a given node.
This will not recurse over children of the device, so they must be
L{backend.BlockdevCreate} function where it specifies
whether we run on primary or not, and it affects both
the child assembly and the device own Open() execution
+ @type excl_stor: boolean
+ @param excl_stor: Whether exclusive_storage is active for the node
"""
lu.cfg.SetDiskID(device, node)
result = lu.rpc.call_blockdev_create(node, device, device.size,
- instance.name, force_open, info)
+ instance.name, force_open, info,
+ excl_stor)
result.Raise("Can't create block device %s on"
" node %s for instance %s" % (device, node, instance.name))
if device.physical_id is None:
_DISK_TEMPLATE_NAME_PREFIX = {
constants.DT_PLAIN: "",
constants.DT_RBD: ".rbd",
+ constants.DT_EXT: ".ext",
}
constants.DT_SHARED_FILE: constants.LD_FILE,
constants.DT_BLOCK: constants.LD_BLOCKDEV,
constants.DT_RBD: constants.LD_RBD,
+ constants.DT_EXT: constants.LD_EXT,
}
"""Generate the entire disk layout for a given template type.
"""
- #TODO: compute space requirements
-
vgname = lu.cfg.GetVGName()
disk_count = len(disk_info)
disks = []
disk[constants.IDISK_ADOPT])
elif template_name == constants.DT_RBD:
logical_id_fn = lambda idx, _, disk: ("rbd", names[idx])
+ elif template_name == constants.DT_EXT:
+ def logical_id_fn(idx, _, disk):
+ provider = disk.get(constants.IDISK_PROVIDER, None)
+ if provider is None:
+ raise errors.ProgrammerError("Disk template is %s, but '%s' is"
+ " not found", constants.DT_EXT,
+ constants.IDISK_PROVIDER)
+ return (provider, names[idx])
else:
raise errors.ProgrammerError("Unknown disk template '%s'" % template_name)
dev_type = _DISK_TEMPLATE_DEVICE_TYPE[template_name]
for idx, disk in enumerate(disk_info):
+ params = {}
+ # Only for the Ext template add disk_info to params
+ if template_name == constants.DT_EXT:
+ params[constants.IDISK_PROVIDER] = disk[constants.IDISK_PROVIDER]
+ for key in disk:
+ if key not in constants.IDISK_PARAMS:
+ params[key] = disk[key]
disk_index = idx + base_index
size = disk[constants.IDISK_SIZE]
feedback_fn("* disk %s, size %s" %
logical_id=logical_id_fn(idx, disk_index, disk),
iv_name="disk/%d" % disk_index,
mode=disk[constants.IDISK_MODE],
- params={}))
+ params=params))
return disks
osname, node)
-def _CreateInstanceAllocRequest(op, disks, nics, beparams):
+def _CreateInstanceAllocRequest(op, disks, nics, beparams, node_whitelist):
"""Wrapper around IAReqInstanceAlloc.
@param op: The instance opcode
@param disks: The computed disks
@param nics: The computed nics
@param beparams: The full filled beparams
+ @param node_whitelist: List of nodes which should appear as online to the
+ allocator (unless the node is already marked offline)
@returns: A filled L{iallocator.IAReqInstanceAlloc}
spindle_use=spindle_use,
disks=disks,
nics=[n.ToDict() for n in nics],
- hypervisor=op.hypervisor)
+ hypervisor=op.hypervisor,
+ node_whitelist=node_whitelist)
def _ComputeNics(op, cluster, default_ip, cfg, ec_id):
@param op: The instance opcode
@param default_vg: The default_vg to assume
- @return: The computer disks
+ @return: The computed disks
"""
disks = []
raise errors.OpPrereqError("Invalid disk size '%s'" % size,
errors.ECODE_INVAL)
+ ext_provider = disk.get(constants.IDISK_PROVIDER, None)
+ if ext_provider and op.disk_template != constants.DT_EXT:
+ raise errors.OpPrereqError("The '%s' option is only valid for the %s"
+ " disk template, not %s" %
+ (constants.IDISK_PROVIDER, constants.DT_EXT,
+ op.disk_template), errors.ECODE_INVAL)
+
data_vg = disk.get(constants.IDISK_VG, default_vg)
new_disk = {
constants.IDISK_SIZE: size,
constants.IDISK_MODE: mode,
constants.IDISK_VG: data_vg,
}
+
if constants.IDISK_METAVG in disk:
new_disk[constants.IDISK_METAVG] = disk[constants.IDISK_METAVG]
if constants.IDISK_ADOPT in disk:
new_disk[constants.IDISK_ADOPT] = disk[constants.IDISK_ADOPT]
+
+ # For extstorage, demand the `provider' option and add any
+ # additional parameters (ext-params) to the dict
+ if op.disk_template == constants.DT_EXT:
+ if ext_provider:
+ new_disk[constants.IDISK_PROVIDER] = ext_provider
+ for key in disk:
+ if key not in constants.IDISK_PARAMS:
+ new_disk[key] = disk[key]
+ else:
+ raise errors.OpPrereqError("Missing provider for template '%s'" %
+ constants.DT_EXT, errors.ECODE_INVAL)
+
disks.append(new_disk)
return disks
return cluster.SimpleFillBE(op.beparams)
+def _CheckOpportunisticLocking(op):
+ """Generate error if opportunistic locking is not possible.
+
+ """
+ if op.opportunistic_locking and not op.iallocator:
+ raise errors.OpPrereqError("Opportunistic locking is only available in"
+ " combination with an instance allocator",
+ errors.ECODE_INVAL)
+
+
class LUInstanceCreate(LogicalUnit):
"""Create an instance.
# check disks. parameter names and consistent adopt/no-adopt strategy
has_adopt = has_no_adopt = False
for disk in self.op.disks:
- utils.ForceDictType(disk, constants.IDISK_PARAMS_TYPES)
+ if self.op.disk_template != constants.DT_EXT:
+ utils.ForceDictType(disk, constants.IDISK_PARAMS_TYPES)
if constants.IDISK_ADOPT in disk:
has_adopt = True
else:
" template")
self.op.snode = None
+ _CheckOpportunisticLocking(self.op)
+
self._cds = _GetClusterDomainSecret()
if self.op.mode == constants.INSTANCE_IMPORT:
# specifying a group on instance creation and then selecting nodes from
# that group
self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET
- self.needed_locks[locking.LEVEL_NODE_RES] = locking.ALL_SET
+ self.needed_locks[locking.LEVEL_NODE_ALLOC] = locking.ALL_SET
+
+ if self.op.opportunistic_locking:
+ self.opportunistic_locks[locking.LEVEL_NODE] = True
+ self.opportunistic_locks[locking.LEVEL_NODE_RES] = True
else:
self.op.pnode = _ExpandNodeName(self.cfg, self.op.pnode)
nodelist = [self.op.pnode]
self.op.snode = _ExpandNodeName(self.cfg, self.op.snode)
nodelist.append(self.op.snode)
self.needed_locks[locking.LEVEL_NODE] = nodelist
- # Lock resources of instance's primary and secondary nodes (copy to
- # prevent accidential modification)
- self.needed_locks[locking.LEVEL_NODE_RES] = list(nodelist)
# in case of import lock the source node too
if self.op.mode == constants.INSTANCE_IMPORT:
if src_node is None:
self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET
+ self.needed_locks[locking.LEVEL_NODE_ALLOC] = locking.ALL_SET
self.op.src_node = None
if os.path.isabs(src_path):
raise errors.OpPrereqError("Importing an instance from a path"
self.op.src_path = src_path = \
utils.PathJoin(pathutils.EXPORT_DIR, src_path)
+ self.needed_locks[locking.LEVEL_NODE_RES] = \
+ _CopyLockList(self.needed_locks[locking.LEVEL_NODE])
+
def _RunAllocator(self):
"""Run the allocator based on input opcode.
"""
+ if self.op.opportunistic_locking:
+ # Only consider nodes for which a lock is held
+ node_whitelist = self.owned_locks(locking.LEVEL_NODE)
+ else:
+ node_whitelist = None
+
#TODO Export network to iallocator so that it chooses a pnode
# in a nodegroup that has the desired network connected to
req = _CreateInstanceAllocRequest(self.op, self.disks,
- self.nics, self.be_full)
+ self.nics, self.be_full,
+ node_whitelist)
ial = iallocator.IAllocator(self.cfg, self.rpc, req)
ial.Run(self.op.iallocator)
if not ial.success:
+ # When opportunistic locks are used only a temporary failure is generated
+ if self.op.opportunistic_locking:
+ ecode = errors.ECODE_TEMP_NORES
+ else:
+ ecode = errors.ECODE_NORES
+
raise errors.OpPrereqError("Can't compute nodes using"
" iallocator '%s': %s" %
(self.op.iallocator, ial.info),
- errors.ECODE_NORES)
+ ecode)
+
self.op.pnode = ial.result[0]
self.LogInfo("Selected nodes for instance %s via iallocator %s: %s",
self.op.instance_name, self.op.iallocator,
self._RevertToDefaults(cluster)
# NIC buildup
- self.nics = _ComputeNics(self.op, cluster, self.hostname1.ip, self.cfg,
+ self.nics = _ComputeNics(self.op, cluster, self.check_ip, self.cfg,
self.proc.GetECId())
# disk checks/pre-build
self._RunAllocator()
# Release all unneeded node locks
- _ReleaseLocks(self, locking.LEVEL_NODE,
- keep=filter(None, [self.op.pnode, self.op.snode,
- self.op.src_node]))
- _ReleaseLocks(self, locking.LEVEL_NODE_RES,
- keep=filter(None, [self.op.pnode, self.op.snode,
- self.op.src_node]))
+ keep_locks = filter(None, [self.op.pnode, self.op.snode, self.op.src_node])
+ _ReleaseLocks(self, locking.LEVEL_NODE, keep=keep_locks)
+ _ReleaseLocks(self, locking.LEVEL_NODE_RES, keep=keep_locks)
+ _ReleaseLocks(self, locking.LEVEL_NODE_ALLOC)
+
+ assert (self.owned_locks(locking.LEVEL_NODE) ==
+ self.owned_locks(locking.LEVEL_NODE_RES)), \
+ "Node locks differ from node resource locks"
#### node related checks
" or does not belong to network %s" %
(nic.ip, net),
errors.ECODE_NOTUNIQUE)
- else:
- # net is None, ip None or given
- if self.op.conflicts_check:
- _CheckForConflictingIp(self, nic.ip, self.pnode.name)
+
+ # net is None, ip None or given
+ elif self.op.conflicts_check:
+ _CheckForConflictingIp(self, nic.ip, self.pnode.name)
# mirror node verification
if self.op.disk_template in constants.DTS_INT_MIRROR:
# Any function that checks prerequisites can be placed here.
# Check if there is enough space on the RADOS cluster.
_CheckRADOSFreeSpace()
+ elif self.op.disk_template == constants.DT_EXT:
+ # FIXME: Function that checks prereqs if needed
+ pass
else:
# Check lv size requirements, if not adopting
req_sizes = _ComputeDiskSizePerVG(self.op.disk_template, self.disks)
_CheckNicsBridgesExist(self, self.nics, self.pnode.name)
+ #TODO: _CheckExtParams (remotely)
+ # Check parameters for extstorage
+
# memory check on primary node
#TODO(dynmem): use MINMEM for checking
if self.op.start:
assert not (self.owned_locks(locking.LEVEL_NODE_RES) -
self.owned_locks(locking.LEVEL_NODE)), \
"Node locks differ from node resource locks"
+ assert not self.glm.is_owned(locking.LEVEL_NODE_ALLOC)
ht_kind = self.op.hypervisor
if ht_kind in constants.HTS_REQ_PORT:
" or set a cluster-wide default iallocator",
errors.ECODE_INVAL)
+ _CheckOpportunisticLocking(self.op)
+
dups = utils.FindDuplicates([op.instance_name for op in self.op.instances])
if dups:
raise errors.OpPrereqError("There are duplicate instance names: %s" %
"""
self.share_locks = _ShareAll()
- self.needed_locks = {}
+ self.needed_locks = {
+ # iallocator will select nodes and even if no iallocator is used,
+ # collisions with LUInstanceCreate should be avoided
+ locking.LEVEL_NODE_ALLOC: locking.ALL_SET,
+ }
if self.op.iallocator:
self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET
self.needed_locks[locking.LEVEL_NODE_RES] = locking.ALL_SET
+
+ if self.op.opportunistic_locking:
+ self.opportunistic_locks[locking.LEVEL_NODE] = True
+ self.opportunistic_locks[locking.LEVEL_NODE_RES] = True
else:
nodeslist = []
for inst in self.op.instances:
default_vg = self.cfg.GetVGName()
ec_id = self.proc.GetECId()
+ if self.op.opportunistic_locking:
+ # Only consider nodes for which a lock is held
+ node_whitelist = self.owned_locks(locking.LEVEL_NODE)
+ else:
+ node_whitelist = None
+
insts = [_CreateInstanceAllocRequest(op, _ComputeDisks(op, default_vg),
_ComputeNics(op, cluster, None,
self.cfg, ec_id),
- _ComputeFullBeParams(op, cluster))
+ _ComputeFullBeParams(op, cluster),
+ node_whitelist)
for op in self.op.instances]
req = iallocator.IAReqMultiInstanceAlloc(instances=insts)
self.ia_result = ial.result
if self.op.dry_run:
- self.dry_run_rsult = objects.FillDict(self._ConstructPartialResult(), {
+ self.dry_run_result = objects.FillDict(self._ConstructPartialResult(), {
constants.JOB_IDS_KEY: [],
})
if self.op.iallocator is not None:
# iallocator will select a new node in the same group
self.needed_locks[locking.LEVEL_NODEGROUP] = []
+ self.needed_locks[locking.LEVEL_NODE_ALLOC] = locking.ALL_SET
self.needed_locks[locking.LEVEL_NODE_RES] = []
if self.op.iallocator is not None:
assert self.op.remote_node is None
assert not self.needed_locks[locking.LEVEL_NODE]
+ assert locking.NAL in self.owned_locks(locking.LEVEL_NODE_ALLOC)
# Lock member nodes of all locked groups
self.needed_locks[locking.LEVEL_NODE] = \
for group_uuid in self.owned_locks(locking.LEVEL_NODEGROUP)
for node_name in self.cfg.GetNodeGroup(group_uuid).members]
else:
+ assert not self.glm.is_owned(locking.LEVEL_NODE_ALLOC)
+
self._LockInstancesNodes()
+
elif level == locking.LEVEL_NODE_RES:
# Reuse node locks
self.needed_locks[locking.LEVEL_NODE_RES] = \
# Release unneeded node and node resource locks
_ReleaseLocks(self.lu, locking.LEVEL_NODE, keep=touched_nodes)
_ReleaseLocks(self.lu, locking.LEVEL_NODE_RES, keep=touched_nodes)
+ _ReleaseLocks(self.lu, locking.LEVEL_NODE_ALLOC)
# Release any owned node group
- if self.lu.glm.is_owned(locking.LEVEL_NODEGROUP):
- _ReleaseLocks(self.lu, locking.LEVEL_NODEGROUP)
+ _ReleaseLocks(self.lu, locking.LEVEL_NODEGROUP)
# Check whether disks are valid
for disk_idx in self.disks:
(owned_nodes, self.node_secondary_ip.keys()))
assert (self.lu.owned_locks(locking.LEVEL_NODE) ==
self.lu.owned_locks(locking.LEVEL_NODE_RES))
+ assert not self.lu.glm.is_owned(locking.LEVEL_NODE_ALLOC)
owned_instances = self.lu.owned_locks(locking.LEVEL_INSTANCE)
assert list(owned_instances) == [self.instance_name], \
feedback_fn("Replacing disk(s) %s for instance '%s'" %
(utils.CommaJoin(self.disks), self.instance.name))
- feedback_fn("Current primary node: %s", self.instance.primary_node)
- feedback_fn("Current seconary node: %s",
+ feedback_fn("Current primary node: %s" % self.instance.primary_node)
+ feedback_fn("Current seconary node: %s" %
utils.CommaJoin(self.instance.secondary_nodes))
activate_disks = (self.instance.admin_state != constants.ADMINST_UP)
new_lvs = [lv_data, lv_meta]
old_lvs = [child.Copy() for child in dev.children]
iv_names[dev.iv_name] = (dev, old_lvs, new_lvs)
+ excl_stor = _IsExclusiveStorageEnabledNodeName(self.lu.cfg, node_name)
# we pass force_create=True to force the LVM creation
for new_lv in new_lvs:
_CreateBlockDevInner(self.lu, node_name, self.instance, new_lv, True,
- _GetInstanceInfoText(self.instance), False)
+ _GetInstanceInfoText(self.instance), False,
+ excl_stor)
return iv_names
# Step: create new storage
self.lu.LogStep(3, steps_total, "Allocate new storage")
disks = _AnnotateDiskParams(self.instance, self.instance.disks, self.cfg)
+ excl_stor = _IsExclusiveStorageEnabledNodeName(self.lu.cfg, self.new_node)
for idx, dev in enumerate(disks):
self.lu.LogInfo("Adding new local storage on %s for disk/%d" %
(self.new_node, idx))
# we pass force_create=True to force LVM creation
for new_lv in dev.children:
_CreateBlockDevInner(self.lu, self.new_node, self.instance, new_lv,
- True, _GetInstanceInfoText(self.instance), False)
+ True, _GetInstanceInfoText(self.instance), False,
+ excl_stor)
# Step 4: dbrd minors and drbd setups changes
# after this, we must manually remove the drbd minors on both the
try:
_CreateSingleBlockDev(self.lu, self.new_node, self.instance,
anno_new_drbd,
- _GetInstanceInfoText(self.instance), False)
+ _GetInstanceInfoText(self.instance), False,
+ excl_stor)
except errors.GenericError:
self.cfg.ReleaseDRBDMinors(self.instance.name)
raise
if instance.disk_template not in (constants.DT_FILE,
constants.DT_SHARED_FILE,
- constants.DT_RBD):
+ constants.DT_RBD,
+ constants.DT_EXT):
# TODO: check the free disk space for file, when that feature will be
# supported
_CheckNodesFreeDiskPerVG(self, nodenames,
for (op, _, params) in mods:
assert ht.TDict(params)
- utils.ForceDictType(params, key_types)
+ # If 'key_types' is an empty dict, we assume we have an
+ # 'ext' template and thus do not ForceDictType
+ if key_types:
+ utils.ForceDictType(params, key_types)
if op == constants.DDM_REMOVE:
if params:
params[constants.IDISK_SIZE] = size
- elif op == constants.DDM_MODIFY and constants.IDISK_SIZE in params:
- raise errors.OpPrereqError("Disk size change not possible, use"
- " grow-disk", errors.ECODE_INVAL)
+ elif op == constants.DDM_MODIFY:
+ if constants.IDISK_SIZE in params:
+ raise errors.OpPrereqError("Disk size change not possible, use"
+ " grow-disk", errors.ECODE_INVAL)
+ if constants.IDISK_MODE not in params:
+ raise errors.OpPrereqError("Disk 'mode' is the only kind of"
+ " modification supported, but missing",
+ errors.ECODE_NOENT)
+ if len(params) > 1:
+ raise errors.OpPrereqError("Disk modification doesn't support"
+ " additional arbitrary parameters",
+ errors.ECODE_INVAL)
@staticmethod
def _VerifyNicModification(op, params):
self.op.nics = self._UpgradeDiskNicMods(
"NIC", self.op.nics, opcodes.OpInstanceSetParams.TestNicModifications)
- # Check disk modifications
- self._CheckMods("disk", self.op.disks, constants.IDISK_PARAMS_TYPES,
- self._VerifyDiskModification)
-
if self.op.disks and self.op.disk_template is not None:
raise errors.OpPrereqError("Disk template conversion and other disk"
" changes not supported at the same time",
raise errors.OpPrereqError("Cannot set the NIC IP address to None"
" on a routed NIC", errors.ECODE_INVAL)
+ elif new_mode == constants.NIC_MODE_OVS:
+ # TODO: check OVS link
+ self.LogInfo("OVS links are currently not checked for correctness")
+
if constants.INIC_MAC in params:
mac = params[constants.INIC_MAC]
if mac is None:
elif new_ip.lower() == constants.NIC_IP_POOL:
raise errors.OpPrereqError("ip=pool, but no network found",
errors.ECODE_INVAL)
- else:
- # new net is None
- if self.op.conflicts_check:
- _CheckForConflictingIp(self, new_ip, pnode)
+
+ # new net is None
+ elif self.op.conflicts_check:
+ _CheckForConflictingIp(self, new_ip, pnode)
if old_ip:
if old_net:
private.params = new_params
private.filled = new_filled_params
- def CheckPrereq(self):
+ def CheckPrereq(self): # pylint: disable=R0914
"""Check prerequisites.
This only checks the instance list against the existing names.
# dictionary with instance information after the modification
ispec = {}
+ # Check disk modifications. This is done here and not in CheckArguments
+ # (as with NICs), because we need to know the instance's disk template
+ if instance.disk_template == constants.DT_EXT:
+ self._CheckMods("disk", self.op.disks, {},
+ self._VerifyDiskModification)
+ else:
+ self._CheckMods("disk", self.op.disks, constants.IDISK_PARAMS_TYPES,
+ self._VerifyDiskModification)
+
# Prepare disk/NIC modifications
self.diskmod = PrepareContainerMods(self.op.disks, None)
self.nicmod = PrepareContainerMods(self.op.nics, _InstNicModPrivate)
+ # Check the validity of the `provider' parameter
+ if instance.disk_template in constants.DT_EXT:
+ for mod in self.diskmod:
+ ext_provider = mod[2].get(constants.IDISK_PROVIDER, None)
+ if mod[0] == constants.DDM_ADD:
+ if ext_provider is None:
+ raise errors.OpPrereqError("Instance template is '%s' and parameter"
+ " '%s' missing, during disk add" %
+ (constants.DT_EXT,
+ constants.IDISK_PROVIDER),
+ errors.ECODE_NOENT)
+ elif mod[0] == constants.DDM_MODIFY:
+ if ext_provider:
+ raise errors.OpPrereqError("Parameter '%s' is invalid during disk"
+ " modification" %
+ constants.IDISK_PROVIDER,
+ errors.ECODE_INVAL)
+ else:
+ for mod in self.diskmod:
+ ext_provider = mod[2].get(constants.IDISK_PROVIDER, None)
+ if ext_provider is not None:
+ raise errors.OpPrereqError("Parameter '%s' is only valid for"
+ " instances of type '%s'" %
+ (constants.IDISK_PROVIDER,
+ constants.DT_EXT),
+ errors.ECODE_INVAL)
+
# OS change
if self.op.os_name and not self.op.force:
_CheckNodeHasOS(self, instance.primary_node, self.op.os_name,
ispec[constants.ISPEC_DISK_COUNT] = len(disk_sizes)
ispec[constants.ISPEC_DISK_SIZE] = disk_sizes
- if self.op.offline is not None:
- if self.op.offline:
- msg = "can't change to offline"
- else:
- msg = "can't change to online"
- _CheckInstanceState(self, instance, CAN_CHANGE_INSTANCE_OFFLINE, msg=msg)
+ if self.op.offline is not None and self.op.offline:
+ _CheckInstanceState(self, instance, CAN_CHANGE_INSTANCE_OFFLINE,
+ msg="can't change to offline")
# Pre-compute NIC changes (necessary to use result in hooks)
self._nic_chgdesc = []
self.diskparams)
anno_disks = rpc.AnnotateDiskParams(constants.DT_DRBD8, new_disks,
self.diskparams)
+ p_excl_stor = _IsExclusiveStorageEnabledNodeName(self.cfg, pnode)
+ s_excl_stor = _IsExclusiveStorageEnabledNodeName(self.cfg, snode)
info = _GetInstanceInfoText(instance)
feedback_fn("Creating additional volumes...")
# first, create the missing data and meta devices
for disk in anno_disks:
# unfortunately this is... not too nice
_CreateSingleBlockDev(self, pnode, instance, disk.children[1],
- info, True)
+ info, True, p_excl_stor)
for child in disk.children:
- _CreateSingleBlockDev(self, snode, instance, child, info, True)
+ _CreateSingleBlockDev(self, snode, instance, child, info, True,
+ s_excl_stor)
# at this stage, all new LVs have been created, we can rename the
# old ones
feedback_fn("Renaming original volumes...")
feedback_fn("Initializing DRBD devices...")
# all child devices are in place, we can now create the DRBD devices
for disk in anno_disks:
- for node in [pnode, snode]:
+ for (node, excl_stor) in [(pnode, p_excl_stor), (snode, s_excl_stor)]:
f_create = node == pnode
- _CreateSingleBlockDev(self, node, instance, disk, info, f_create)
+ _CreateSingleBlockDev(self, node, instance, disk, info, f_create,
+ excl_stor)
# at this point, the instance has been modified
instance.disk_template = constants.DT_DRBD8
def ExpandNames(self):
self.share_locks = _ShareAll()
+
self.needed_locks = {
locking.LEVEL_NODEGROUP: [],
locking.LEVEL_NODE: [],
+ locking.LEVEL_NODE_ALLOC: locking.ALL_SET,
}
self._ExpandAndLockInstance()
locking.LEVEL_NODE: self.wanted,
}
+ if not self.names:
+ lu.needed_locks[locking.LEVEL_NODE_ALLOC] = locking.ALL_SET
+
def DeclareLocks(self, lu, level):
pass
# - removing the removal operation altogether
self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET
+ # Allocations should be stopped while this LU runs with node locks, but
+ # it doesn't have to be exclusive
+ self.share_locks[locking.LEVEL_NODE_ALLOC] = 1
+ self.needed_locks[locking.LEVEL_NODE_ALLOC] = locking.ALL_SET
+
def DeclareLocks(self, level):
"""Last minute lock declaration."""
# All nodes are locked anyway, so nothing to do here.
REQ_BGL = False
def ExpandNames(self):
- self.needed_locks = {}
- # We need all nodes to be locked in order for RemoveExport to work, but we
- # don't need to lock the instance itself, as nothing will happen to it (and
- # we can remove exports also for a removed instance)
- self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET
+ self.needed_locks = {
+ # We need all nodes to be locked in order for RemoveExport to work, but
+ # we don't need to lock the instance itself, as nothing will happen to it
+ # (and we can remove exports also for a removed instance)
+ locking.LEVEL_NODE: locking.ALL_SET,
+
+ # Removing backups is quick, so blocking allocations is justified
+ locking.LEVEL_NODE_ALLOC: locking.ALL_SET,
+ }
+
+ # Allocations should be stopped while this LU runs with node locks, but it
+ # doesn't have to be exclusive
+ self.share_locks[locking.LEVEL_NODE_ALLOC] = 1
def Exec(self, feedback_fn):
"""Remove any export.
mn = self.cfg.GetMasterNode()
return ([mn], [mn])
+ def CheckArguments(self):
+ if self.op.mac_prefix:
+ self.op.mac_prefix = \
+ utils.NormalizeAndValidateThreeOctetMacPrefix(self.op.mac_prefix)
+
def ExpandNames(self):
self.network_uuid = self.cfg.GenerateUniqueID(self.proc.GetECId())
if self.op.conflicts_check:
self.share_locks[locking.LEVEL_NODE] = 1
+ self.share_locks[locking.LEVEL_NODE_ALLOC] = 1
self.needed_locks = {
locking.LEVEL_NODE: locking.ALL_SET,
+ locking.LEVEL_NODE_ALLOC: locking.ALL_SET,
}
else:
self.needed_locks = {}
self.add_locks[locking.LEVEL_NETWORK] = self.network_uuid
def CheckPrereq(self):
- """Check prerequisites.
-
- This checks that the given group name is not an existing node group
- already.
-
- """
if self.op.network is None:
raise errors.OpPrereqError("Network must be given",
errors.ECODE_INVAL)
uuid = self.cfg.LookupNetwork(self.op.network_name)
if uuid:
- raise errors.OpPrereqError("Network '%s' already defined" %
- self.op.network, errors.ECODE_EXISTS)
-
- if self.op.mac_prefix:
- utils.NormalizeAndValidateMac(self.op.mac_prefix + ":00:00:00")
+ raise errors.OpPrereqError(("Network with name '%s' already exists" %
+ self.op.network_name), errors.ECODE_EXISTS)
# Check tag validity
for tag in self.op.tags:
try:
pool = network.AddressPool.InitializeNetwork(nobj)
except errors.AddressPoolError, e:
- raise errors.OpExecError("Cannot create IP pool for this network. %s" % e)
+ raise errors.OpExecError("Cannot create IP pool for this network: %s" % e)
# Check if we need to reserve the nodes and the cluster master IP
# These may not be allocated to any instances in routed mode, as
self.network_uuid = self.cfg.LookupNetwork(self.op.network_name)
if not self.network_uuid:
- raise errors.OpPrereqError("Network %s not found" % self.op.network_name,
- errors.ECODE_INVAL)
+ raise errors.OpPrereqError(("Network '%s' not found" %
+ self.op.network_name), errors.ECODE_NOENT)
self.share_locks[locking.LEVEL_NODEGROUP] = 1
self.needed_locks = {
cluster.
"""
-
# Verify that the network is not conncted.
node_groups = [group.name
for group in self.cfg.GetAllNodeGroupsInfo().values()
- for net in group.networks.keys()
- if net == self.network_uuid]
+ if self.network_uuid in group.networks]
if node_groups:
- self.LogWarning("Nework '%s' is connected to the following"
- " node groups: %s" % (self.op.network_name,
- utils.CommaJoin(utils.NiceSort(node_groups))))
- raise errors.OpPrereqError("Network still connected",
- errors.ECODE_STATE)
+ self.LogWarning("Network '%s' is connected to the following"
+ " node groups: %s" %
+ (self.op.network_name,
+ utils.CommaJoin(utils.NiceSort(node_groups))))
+ raise errors.OpPrereqError("Network still connected", errors.ECODE_STATE)
def BuildHooksEnv(self):
"""Build hooks env.
def ExpandNames(self):
self.network_uuid = self.cfg.LookupNetwork(self.op.network_name)
- self.network = self.cfg.GetNetwork(self.network_uuid)
- if self.network is None:
- raise errors.OpPrereqError("Could not retrieve network '%s' (UUID: %s)" %
- (self.op.network_name, self.network_uuid),
- errors.ECODE_INVAL)
+ if self.network_uuid is None:
+ raise errors.OpPrereqError(("Network '%s' not found" %
+ self.op.network_name), errors.ECODE_NOENT)
+
self.needed_locks = {
locking.LEVEL_NETWORK: [self.network_uuid],
}
"""Check prerequisites.
"""
+ self.network = self.cfg.GetNetwork(self.network_uuid)
self.gateway = self.network.gateway
self.network_type = self.network.network_type
self.mac_prefix = self.network.mac_prefix
else:
self.gateway = self.op.gateway
if self.pool.IsReserved(self.gateway):
- raise errors.OpPrereqError("%s is already reserved" %
- self.gateway, errors.ECODE_INVAL)
+ raise errors.OpPrereqError("Gateway IP address '%s' is already"
+ " reserved" % self.gateway,
+ errors.ECODE_STATE)
if self.op.network_type:
if self.op.network_type == constants.VALUE_NONE:
if self.op.mac_prefix == constants.VALUE_NONE:
self.mac_prefix = None
else:
- utils.NormalizeAndValidateMac(self.op.mac_prefix + ":00:00:00")
- self.mac_prefix = self.op.mac_prefix
+ self.mac_prefix = \
+ utils.NormalizeAndValidateThreeOctetMacPrefix(self.op.mac_prefix)
if self.op.gateway6:
if self.op.gateway6 == constants.VALUE_NONE:
"""
do_instances = query.NETQ_INST in self.requested_data
do_groups = do_instances or (query.NETQ_GROUP in self.requested_data)
- do_stats = query.NETQ_STATS in self.requested_data
- network_to_groups = None
network_to_instances = None
- stats = None
# For NETQ_GROUP, we need to map network->[groups]
if do_groups:
group_instances = [instance for instance in all_instances.values()
if instance.primary_node in group_nodes]
- for net_uuid in group.networks.keys():
- if net_uuid in network_to_groups:
- netparams = group.networks[net_uuid]
- mode = netparams[constants.NIC_MODE]
- link = netparams[constants.NIC_LINK]
- info = group.name + "(" + mode + ", " + link + ")"
+ for net_uuid in self.wanted:
+ netparams = group.networks.get(net_uuid, None)
+ if netparams:
+ info = (group.name, netparams[constants.NIC_MODE],
+ netparams[constants.NIC_LINK])
+
network_to_groups[net_uuid].append(info)
- if do_instances:
- for instance in group_instances:
- for nic in instance.nics:
- if nic.network == self._all_networks[net_uuid].name:
- network_to_instances[net_uuid].append(instance.name)
- break
-
- if do_stats:
- stats = {}
- for uuid, net in self._all_networks.items():
- if uuid in self.wanted:
- pool = network.AddressPool(net)
- stats[uuid] = {
- "free_count": pool.GetFreeCount(),
- "reserved_count": pool.GetReservedCount(),
- "map": pool.GetMap(),
- "external_reservations":
- utils.CommaJoin(pool.GetExternalReservations()),
- }
+ if do_instances:
+ for instance in group_instances:
+ for nic in instance.nics:
+ if nic.network == self._all_networks[net_uuid].name:
+ network_to_instances[net_uuid].append(instance.name)
+ break
+ else:
+ network_to_groups = None
+
+ if query.NETQ_STATS in self.requested_data:
+ stats = \
+ dict((uuid,
+ self._GetStats(network.AddressPool(self._all_networks[uuid])))
+ for uuid in self.wanted)
+ else:
+ stats = None
return query.NetworkQueryData([self._all_networks[uuid]
for uuid in self.wanted],
network_to_instances,
stats)
+ @staticmethod
+ def _GetStats(pool):
+ """Returns statistics for a network address pool.
+
+ """
+ return {
+ "free_count": pool.GetFreeCount(),
+ "reserved_count": pool.GetReservedCount(),
+ "map": pool.GetMap(),
+ "external_reservations":
+ utils.CommaJoin(pool.GetExternalReservations()),
+ }
+
class LUNetworkQuery(NoHooksLU):
"""Logical unit for querying networks.
self.network_link = self.op.network_link
self.network_uuid = self.cfg.LookupNetwork(self.network_name)
- self.network = self.cfg.GetNetwork(self.network_uuid)
- if self.network is None:
- raise errors.OpPrereqError("Network %s does not exist" %
- self.network_name, errors.ECODE_INVAL)
+ if self.network_uuid is None:
+ raise errors.OpPrereqError("Network '%s' does not exist" %
+ self.network_name, errors.ECODE_NOENT)
self.group_uuid = self.cfg.LookupNodeGroup(self.group_name)
- self.group = self.cfg.GetNodeGroup(self.group_uuid)
- if self.group is None:
- raise errors.OpPrereqError("Group %s does not exist" %
- self.group_name, errors.ECODE_INVAL)
+ if self.group_uuid is None:
+ raise errors.OpPrereqError("Group '%s' does not exist" %
+ self.group_name, errors.ECODE_NOENT)
- self.share_locks[locking.LEVEL_INSTANCE] = 1
self.needed_locks = {
locking.LEVEL_INSTANCE: [],
locking.LEVEL_NODEGROUP: [self.group_uuid],
}
+ self.share_locks[locking.LEVEL_INSTANCE] = 1
+
+ if self.op.conflicts_check:
+ self.needed_locks[locking.LEVEL_NETWORK] = [self.network_uuid]
+ self.share_locks[locking.LEVEL_NETWORK] = 1
def DeclareLocks(self, level):
if level == locking.LEVEL_INSTANCE:
if self.op.conflicts_check:
self.needed_locks[locking.LEVEL_INSTANCE] = \
self.cfg.GetNodeGroupInstances(self.group_uuid)
- self.needed_locks[locking.LEVEL_NETWORK] = [self.network_uuid]
def BuildHooksEnv(self):
ret = {
"GROUP_NETWORK_MODE": self.network_mode,
"GROUP_NETWORK_LINK": self.network_link,
}
- ret.update(_BuildNetworkHookEnvByObject(self.network))
return ret
def BuildHooksNodes(self):
return (nodes, nodes)
def CheckPrereq(self):
- owned_instances = frozenset(self.owned_locks(locking.LEVEL_INSTANCE))
owned_groups = frozenset(self.owned_locks(locking.LEVEL_NODEGROUP))
assert self.group_uuid in owned_groups
- # Check if locked instances are still correct
- _CheckNodeGroupInstances(self.cfg, self.group_uuid, owned_instances)
-
- l = lambda value: utils.CommaJoin("%s: %s/%s" % (i[0], i[1], i[2])
- for i in value)
-
self.netparams = {
constants.NIC_MODE: self.network_mode,
constants.NIC_LINK: self.network_link,
}
objects.NIC.CheckParameterSyntax(self.netparams)
+ self.group = self.cfg.GetNodeGroup(self.group_uuid)
#if self.network_mode == constants.NIC_MODE_BRIDGED:
# _CheckNodeGroupBridgesExist(self, self.network_link, self.group_uuid)
self.connected = False
return
if self.op.conflicts_check:
- pool = network.AddressPool(self.network)
- conflicting_instances = []
-
- for (_, instance) in self.cfg.GetMultiInstanceInfo(owned_instances):
- for idx, nic in enumerate(instance.nics):
- if pool.Contains(nic.ip):
- conflicting_instances.append((instance.name, idx, nic.ip))
-
- if conflicting_instances:
- self.LogWarning("Following occurences use IPs from network %s"
- " that is about to connect to nodegroup %s: %s" %
- (self.network_name, self.group.name,
- l(conflicting_instances)))
- raise errors.OpPrereqError("Conflicting IPs found."
- " Please remove/modify"
- " corresponding NICs",
- errors.ECODE_INVAL)
+ pool = network.AddressPool(self.cfg.GetNetwork(self.network_uuid))
+
+ _NetworkConflictCheck(self, lambda nic: pool.Contains(nic.ip),
+ "connect to")
def Exec(self, feedback_fn):
if self.connected:
self.cfg.Update(self.group, feedback_fn)
+def _NetworkConflictCheck(lu, check_fn, action):
+ """Checks for network interface conflicts with a network.
+
+ @type lu: L{LogicalUnit}
+ @type check_fn: callable receiving one parameter (L{objects.NIC}) and
+ returning boolean
+ @param check_fn: Function checking for conflict
+ @type action: string
+ @param action: Part of error message (see code)
+ @raise errors.OpPrereqError: If conflicting IP addresses are found.
+
+ """
+ # Check if locked instances are still correct
+ owned_instances = frozenset(lu.owned_locks(locking.LEVEL_INSTANCE))
+ _CheckNodeGroupInstances(lu.cfg, lu.group_uuid, owned_instances)
+
+ conflicts = []
+
+ for (_, instance) in lu.cfg.GetMultiInstanceInfo(owned_instances):
+ instconflicts = [(idx, nic.ip)
+ for (idx, nic) in enumerate(instance.nics)
+ if check_fn(nic)]
+
+ if instconflicts:
+ conflicts.append((instance.name, instconflicts))
+
+ if conflicts:
+ lu.LogWarning("IP addresses from network '%s', which is about to %s"
+ " node group '%s', are in use: %s" %
+ (lu.network_name, action, lu.group.name,
+ utils.CommaJoin(("%s: %s" %
+ (name, _FmtNetworkConflict(details)))
+ for (name, details) in conflicts)))
+
+ raise errors.OpPrereqError("Conflicting IP addresses found; "
+ " remove/modify the corresponding network"
+ " interfaces", errors.ECODE_STATE)
+
+
+def _FmtNetworkConflict(details):
+ """Utility for L{_NetworkConflictCheck}.
+
+ """
+ return utils.CommaJoin("nic%s/%s" % (idx, ipaddr)
+ for (idx, ipaddr) in details)
+
+
class LUNetworkDisconnect(LogicalUnit):
"""Disconnect a network to a nodegroup
self.group_name = self.op.group_name
self.network_uuid = self.cfg.LookupNetwork(self.network_name)
- self.network = self.cfg.GetNetwork(self.network_uuid)
- if self.network is None:
- raise errors.OpPrereqError("Network %s does not exist" %
- self.network_name, errors.ECODE_INVAL)
+ if self.network_uuid is None:
+ raise errors.OpPrereqError("Network '%s' does not exist" %
+ self.network_name, errors.ECODE_NOENT)
self.group_uuid = self.cfg.LookupNodeGroup(self.group_name)
- self.group = self.cfg.GetNodeGroup(self.group_uuid)
- if self.group is None:
- raise errors.OpPrereqError("Group %s does not exist" %
- self.group_name, errors.ECODE_INVAL)
+ if self.group_uuid is None:
+ raise errors.OpPrereqError("Group '%s' does not exist" %
+ self.group_name, errors.ECODE_NOENT)
self.needed_locks = {
+ locking.LEVEL_INSTANCE: [],
locking.LEVEL_NODEGROUP: [self.group_uuid],
}
self.share_locks[locking.LEVEL_INSTANCE] = 1
ret = {
"GROUP_NAME": self.group_name,
}
- ret.update(_BuildNetworkHookEnvByObject(self.network))
return ret
def BuildHooksNodes(self):
return (nodes, nodes)
def CheckPrereq(self):
- owned_instances = frozenset(self.owned_locks(locking.LEVEL_INSTANCE))
owned_groups = frozenset(self.owned_locks(locking.LEVEL_NODEGROUP))
assert self.group_uuid in owned_groups
- # Check if locked instances are still correct
- _CheckNodeGroupInstances(self.cfg, self.group_uuid, owned_instances)
-
- l = lambda value: utils.CommaJoin("%s: %s/%s" % (i[0], i[1], i[2])
- for i in value)
-
+ self.group = self.cfg.GetNodeGroup(self.group_uuid)
self.connected = True
if self.network_uuid not in self.group.networks:
self.LogWarning("Network '%s' is not mapped to group '%s'",
return
if self.op.conflicts_check:
- conflicting_instances = []
-
- for (_, instance) in self.cfg.GetMultiInstanceInfo(owned_instances):
- for idx, nic in enumerate(instance.nics):
- if nic.network == self.network_name:
- conflicting_instances.append((instance.name, idx, nic.ip))
-
- if conflicting_instances:
- self.LogWarning("Following occurences use IPs from network %s"
- " that is about to disconnected from the nodegroup"
- " %s: %s" %
- (self.network_name, self.group.name,
- l(conflicting_instances)))
- raise errors.OpPrereqError("Conflicting IPs."
- " Please remove/modify"
- " corresponding NICS",
- errors.ECODE_INVAL)
+ _NetworkConflictCheck(self, lambda nic: nic.network == self.network_name,
+ "disconnect from")
def Exec(self, feedback_fn):
if not self.connected:
def _CheckForConflictingIp(lu, ip, node):
- """In case of conflicting ip raise error.
+ """In case of conflicting IP address raise error.
@type ip: string
- @param ip: ip address
+ @param ip: IP address
@type node: string
@param node: node name
"""
(conf_net, _) = lu.cfg.CheckIPInNodeGroup(ip, node)
if conf_net is not None:
- raise errors.OpPrereqError("Conflicting IP found:"
- " %s <> %s." % (ip, conf_net),
- errors.ECODE_INVAL)
+ raise errors.OpPrereqError(("Conflicting IP address found: '%s' != '%s'" %
+ (ip, conf_net)),
+ errors.ECODE_STATE)
return (None, None)