import shutil
import itertools
import operator
+import ipaddr
from ganeti import ssh
from ganeti import utils
from ganeti import ht
from ganeti import rpc
from ganeti import runtime
+from ganeti import network
import ganeti.masterd.instance # pylint: disable=W0611
#: Attribute holding field definitions
FIELDS = None
+ #: Field to sort by
+ SORT_FIELD = "name"
+
def __init__(self, qfilter, fields, use_locking):
"""Initializes this class.
self.use_locking = use_locking
self.query = query.Query(self.FIELDS, fields, qfilter=qfilter,
- namefield="name")
+ namefield=self.SORT_FIELD)
self.requested_data = self.query.RequestedData()
self.names = self.query.RequestedNames()
})
+def _AnnotateDiskParams(instance, devs, cfg):
+ """Little helper wrapper to the rpc annotation method.
+
+ @param instance: The instance object
+ @type devs: List of L{objects.Disk}
+ @param devs: The root devices (not any of its children!)
+ @param cfg: The config object
+ @returns The annotated disk copies
+ @see L{rpc.AnnotateDiskParams}
+
+ """
+ return rpc.AnnotateDiskParams(instance.disk_template, devs,
+ cfg.GetInstanceDiskParams(instance))
+
+
def _CheckInstancesNodeGroups(cfg, instances, owned_groups, owned_nodes,
cur_group_uuid):
"""Checks if node groups for locked instances are still correct.
use_none=use_none,
use_default=use_default)
else:
- if not value or value == [constants.VALUE_DEFAULT]:
+ if (not value or value == [constants.VALUE_DEFAULT] or
+ value == constants.VALUE_DEFAULT):
if group_policy:
del ipolicy[key]
else:
# in a nicer way
ipolicy[key] = list(value)
try:
- objects.InstancePolicy.CheckParameterSyntax(ipolicy)
+ objects.InstancePolicy.CheckParameterSyntax(ipolicy, not group_policy)
except errors.ConfigurationError, err:
raise errors.OpPrereqError("Invalid instance policy: %s" % err,
errors.ECODE_INVAL)
(instance.name, msg), errors.ECODE_STATE)
-def _ComputeMinMaxSpec(name, ipolicy, value):
+def _ComputeMinMaxSpec(name, qualifier, ipolicy, value):
"""Computes if value is in the desired range.
@param name: name of the parameter for which we perform the check
+ @param qualifier: a qualifier used in the error message (e.g. 'disk/1',
+ not just 'disk')
@param ipolicy: dictionary containing min, max and std values
@param value: actual value that we want to use
@return: None or element not meeting the criteria
max_v = ipolicy[constants.ISPECS_MAX].get(name, value)
min_v = ipolicy[constants.ISPECS_MIN].get(name, value)
if value > max_v or min_v > value:
+ if qualifier:
+ fqn = "%s/%s" % (name, qualifier)
+ else:
+ fqn = name
return ("%s value %s is not in range [%s, %s]" %
- (name, value, min_v, max_v))
+ (fqn, value, min_v, max_v))
return None
assert disk_count == len(disk_sizes)
test_settings = [
- (constants.ISPEC_MEM_SIZE, mem_size),
- (constants.ISPEC_CPU_COUNT, cpu_count),
- (constants.ISPEC_DISK_COUNT, disk_count),
- (constants.ISPEC_NIC_COUNT, nic_count),
- (constants.ISPEC_SPINDLE_USE, spindle_use),
- ] + map((lambda d: (constants.ISPEC_DISK_SIZE, d)), disk_sizes)
+ (constants.ISPEC_MEM_SIZE, "", mem_size),
+ (constants.ISPEC_CPU_COUNT, "", cpu_count),
+ (constants.ISPEC_DISK_COUNT, "", disk_count),
+ (constants.ISPEC_NIC_COUNT, "", nic_count),
+ (constants.ISPEC_SPINDLE_USE, "", spindle_use),
+ ] + [(constants.ISPEC_DISK_SIZE, str(idx), d)
+ for idx, d in enumerate(disk_sizes)]
return filter(None,
- (_compute_fn(name, ipolicy, value)
- for (name, value) in test_settings))
+ (_compute_fn(name, qualifier, ipolicy, value)
+ for (name, qualifier, value) in test_settings))
def _ComputeIPolicyInstanceViolation(ipolicy, instance,
@param old_ipolicy: The current (still in-place) ipolicy
@param new_ipolicy: The new (to become) ipolicy
@param instances: List of instances to verify
- @return: A list of instances which violates the new ipolicy but did not before
+ @return: A list of instances which violates the new ipolicy but
+ did not before
"""
- return (_ComputeViolatingInstances(old_ipolicy, instances) -
- _ComputeViolatingInstances(new_ipolicy, instances))
+ return (_ComputeViolatingInstances(new_ipolicy, instances) -
+ _ComputeViolatingInstances(old_ipolicy, instances))
def _ExpandItemName(fn, name, kind):
@type vcpus: string
@param vcpus: the count of VCPUs the instance has
@type nics: list
- @param nics: list of tuples (ip, mac, mode, link) representing
+ @param nics: list of tuples (ip, mac, mode, link, network) representing
the NICs the instance has
@type disk_template: string
@param disk_template: the disk template of the instance
}
if nics:
nic_count = len(nics)
- for idx, (ip, mac, mode, link) in enumerate(nics):
+ for idx, (ip, mac, mode, link, network) in enumerate(nics):
if ip is None:
ip = ""
env["INSTANCE_NIC%d_IP" % idx] = ip
env["INSTANCE_NIC%d_MAC" % idx] = mac
env["INSTANCE_NIC%d_MODE" % idx] = mode
env["INSTANCE_NIC%d_LINK" % idx] = link
+ env["INSTANCE_NIC%d_NETWORK" % idx] = network
if mode == constants.NIC_MODE_BRIDGED:
env["INSTANCE_NIC%d_BRIDGE" % idx] = link
else:
filled_params = cluster.SimpleFillNIC(nic.nicparams)
mode = filled_params[constants.NIC_MODE]
link = filled_params[constants.NIC_LINK]
- hooks_nics.append((ip, mac, mode, link))
+ network = nic.network
+ hooks_nics.append((ip, mac, mode, link, network))
return hooks_nics
for dev in instance.disks:
cfg.SetDiskID(dev, node_name)
- result = rpc_runner.call_blockdev_getmirrorstatus(node_name, instance.disks)
+ result = rpc_runner.call_blockdev_getmirrorstatus(node_name, (instance.disks,
+ instance))
result.Raise("Failed to get disk status from node %s" % node_name,
prereq=prereq, ecode=errors.ECODE_ENVIRON)
ipolicy = _CalculateGroupIPolicy(self.cfg.GetClusterInfo(), self.group_info)
err = _ComputeIPolicyInstanceViolation(ipolicy, instanceconfig)
- _ErrorIf(err, constants.CV_EINSTANCEPOLICY, instance, err)
+ _ErrorIf(err, constants.CV_EINSTANCEPOLICY, instance, utils.CommaJoin(err))
for node in node_vol_should:
n_img = node_image[node]
node_disks[nname] = disks
- # Creating copies as SetDiskID below will modify the objects and that can
- # lead to incorrect data returned from nodes
- devonly = [dev.Copy() for (_, dev) in disks]
-
- for dev in devonly:
- self.cfg.SetDiskID(dev, nname)
+ # _AnnotateDiskParams makes already copies of the disks
+ devonly = []
+ for (inst, dev) in disks:
+ (anno_disk,) = _AnnotateDiskParams(instanceinfo[inst], [dev], self.cfg)
+ self.cfg.SetDiskID(anno_disk, nname)
+ devonly.append(anno_disk)
node_disks_devonly[nname] = devonly
for instance in self.my_inst_names:
inst_config = self.my_inst_info[instance]
+ if inst_config.admin_state == constants.ADMINST_OFFLINE:
+ i_offline += 1
for nname in inst_config.all_nodes:
if nname not in node_image:
if master_node not in self.my_node_info:
additional_nodes.append(master_node)
vf_node_info.append(self.all_node_info[master_node])
- # Add the first vm_capable node we find which is not included
+ # Add the first vm_capable node we find which is not included,
+ # excluding the master node (which we already have)
for node in absent_nodes:
nodeinfo = self.all_node_info[node]
- if nodeinfo.vm_capable and not nodeinfo.offline:
+ if (nodeinfo.vm_capable and not nodeinfo.offline and
+ node != master_node):
additional_nodes.append(node)
vf_node_info.append(self.all_node_info[node])
break
non_primary_inst = set(nimg.instances).difference(nimg.pinst)
for inst in non_primary_inst:
- # FIXME: investigate best way to handle offline insts
- if inst.admin_state == constants.ADMINST_OFFLINE:
- if verbose:
- feedback_fn("* Skipping offline instance %s" % inst.name)
- i_offline += 1
- continue
test = inst in self.all_inst_info
_ErrorIf(test, constants.CV_EINSTANCEWRONGNODE, inst,
"instance should not run on node %s", node_i.name)
if self.op.diskparams:
for dt_params in self.op.diskparams.values():
utils.ForceDictType(dt_params, constants.DISK_DT_TYPES)
+ try:
+ utils.VerifyDictOptions(self.op.diskparams, constants.DISK_DT_DEFAULTS)
+ except errors.OpPrereqError, err:
+ raise errors.OpPrereqError("While verify diskparams options: %s" % err,
+ errors.ECODE_INVAL)
def ExpandNames(self):
# FIXME: in the future maybe other cluster params won't require checking on
if violations:
self.LogWarning("After the ipolicy change the following instances"
" violate them: %s",
- utils.CommaJoin(violations))
+ utils.CommaJoin(utils.NiceSort(violations)))
if self.op.nicparams:
utils.ForceDictType(self.op.nicparams, constants.NICS_PARAMETER_TYPES)
if cluster.modify_etc_hosts:
files_all.add(constants.ETC_HOSTS)
+ if cluster.use_external_mip_script:
+ files_all.add(constants.EXTERNAL_MASTER_SETUP_SCRIPT)
+
# Files which are optional, these must:
# - be present in one other category as well
# - either exist or not exist on all nodes of that category (mc, vm all)
if not redist:
files_mc.add(constants.CLUSTER_CONF_FILE)
- # FIXME: this should also be replicated but Ganeti doesn't support files_mc
- # replication
- files_mc.add(constants.DEFAULT_MASTER_SETUP_SCRIPT)
-
# Files which should only be on VM-capable nodes
files_vm = set(filename
for hv_name in cluster.enabled_hypervisors
master_info = lu.cfg.GetNodeInfo(lu.cfg.GetMasterNode())
online_nodes = lu.cfg.GetOnlineNodeList()
- vm_nodes = lu.cfg.GetVmCapableNodeList()
+ online_set = frozenset(online_nodes)
+ vm_nodes = list(online_set.intersection(lu.cfg.GetVmCapableNodeList()))
if additional_nodes is not None:
online_nodes.extend(additional_nodes)
max_time = 0
done = True
cumul_degraded = False
- rstats = lu.rpc.call_blockdev_getmirrorstatus(node, disks)
+ rstats = lu.rpc.call_blockdev_getmirrorstatus(node, (disks, instance))
msg = rstats.fail_msg
if msg:
lu.LogWarning("Can't get any data from node %s: %s", node, msg)
return not cumul_degraded
-def _CheckDiskConsistency(lu, dev, node, on_primary, ldisk=False):
+def _BlockdevFind(lu, node, dev, instance):
+ """Wrapper around call_blockdev_find to annotate diskparams.
+
+ @param lu: A reference to the lu object
+ @param node: The node to call out
+ @param dev: The device to find
+ @param instance: The instance object the device belongs to
+ @returns The result of the rpc call
+
+ """
+ (disk,) = _AnnotateDiskParams(instance, [dev], lu.cfg)
+ return lu.rpc.call_blockdev_find(node, disk)
+
+
+def _CheckDiskConsistency(lu, instance, dev, node, on_primary, ldisk=False):
+ """Wrapper around L{_CheckDiskConsistencyInner}.
+
+ """
+ (disk,) = _AnnotateDiskParams(instance, [dev], lu.cfg)
+ return _CheckDiskConsistencyInner(lu, instance, disk, node, on_primary,
+ ldisk=ldisk)
+
+
+def _CheckDiskConsistencyInner(lu, instance, dev, node, on_primary,
+ ldisk=False):
"""Check that mirrors are not degraded.
+ @attention: The device has to be annotated already.
+
The ldisk parameter, if True, will change the test from the
is_degraded attribute (which represents overall non-ok status for
the device(s)) to the ldisk (representing the local storage status).
if dev.children:
for child in dev.children:
- result = result and _CheckDiskConsistency(lu, child, node, on_primary)
+ result = result and _CheckDiskConsistencyInner(lu, instance, child, node,
+ on_primary)
return result
if mc_remaining < mc_should:
raise errors.OpPrereqError("Not enough master candidates, please"
" pass auto promote option to allow"
- " promotion", errors.ECODE_STATE)
+ " promotion (--auto-promote or RAPI"
+ " auto_promote=True)", errors.ECODE_STATE)
self.old_flags = old_flags = (node.master_candidate,
node.drained, node.offline)
"ipolicy": cluster.ipolicy,
"nicparams": cluster.nicparams,
"ndparams": cluster.ndparams,
+ "diskparams": cluster.diskparams,
"candidate_pool_size": cluster.candidate_pool_size,
"master_netdev": cluster.master_netdev,
"master_netmask": cluster.master_netmask,
"""
REQ_BGL = False
- _FIELDS_DYNAMIC = utils.FieldSet()
- _FIELDS_STATIC = utils.FieldSet("cluster_name", "master_node", "drain_flag",
- "watcher_pause", "volume_group_name")
def CheckArguments(self):
- _CheckOutputFields(static=self._FIELDS_STATIC,
- dynamic=self._FIELDS_DYNAMIC,
- selected=self.op.output_fields)
+ self.cq = _ClusterQuery(None, self.op.output_fields, False)
def ExpandNames(self):
- self.needed_locks = {}
+ self.cq.ExpandNames(self)
+
+ def DeclareLocks(self, level):
+ self.cq.DeclareLocks(self, level)
def Exec(self, feedback_fn):
- """Dump a representation of the cluster config to the standard output.
-
- """
- values = []
- for field in self.op.output_fields:
- if field == "cluster_name":
- entry = self.cfg.GetClusterName()
- elif field == "master_node":
- entry = self.cfg.GetMasterNode()
- elif field == "drain_flag":
- entry = os.path.exists(constants.JOB_QUEUE_DRAIN_FILE)
- elif field == "watcher_pause":
- entry = utils.ReadWatcherPauseFile(constants.WATCHER_PAUSEFILE)
- elif field == "volume_group_name":
- entry = self.cfg.GetVGName()
- else:
- raise errors.ParameterError(field)
- values.append(entry)
- return values
+ result = self.cq.OldStyleQuery(self)
+
+ assert len(result) == 1
+
+ return result[0]
+
+
+class _ClusterQuery(_QueryBase):
+ FIELDS = query.CLUSTER_FIELDS
+
+ #: Do not sort (there is only one item)
+ SORT_FIELD = None
+
+ def ExpandNames(self, lu):
+ lu.needed_locks = {}
+
+ # The following variables interact with _QueryBase._GetNames
+ self.wanted = locking.ALL_SET
+ self.do_locking = self.use_locking
+
+ if self.do_locking:
+ raise errors.OpPrereqError("Can not use locking for cluster queries",
+ errors.ECODE_INVAL)
+
+ def DeclareLocks(self, lu, level):
+ pass
+
+ def _GetQueryData(self, lu):
+ """Computes the list of nodes and their attributes.
+
+ """
+ # Locking is not used
+ assert not (compat.any(lu.glm.is_owned(level)
+ for level in locking.LEVELS
+ if level != locking.LEVEL_CLUSTER) or
+ self.do_locking or self.use_locking)
+
+ if query.CQ_CONFIG in self.requested_data:
+ cluster = lu.cfg.GetClusterInfo()
+ else:
+ cluster = NotImplemented
+
+ if query.CQ_QUEUE_DRAINED in self.requested_data:
+ drain_flag = os.path.exists(constants.JOB_QUEUE_DRAIN_FILE)
+ else:
+ drain_flag = NotImplemented
+
+ if query.CQ_WATCHER_PAUSE in self.requested_data:
+ watcher_pause = utils.ReadWatcherPauseFile(constants.WATCHER_PAUSEFILE)
+ else:
+ watcher_pause = NotImplemented
+
+ return query.ClusterQueryData(cluster, drain_flag, watcher_pause)
class LUInstanceActivateDisks(NoHooksLU):
node_disk = node_disk.Copy()
node_disk.UnsetSize()
lu.cfg.SetDiskID(node_disk, node)
- result = lu.rpc.call_blockdev_assemble(node, node_disk, iname, False, idx)
+ result = lu.rpc.call_blockdev_assemble(node, (node_disk, instance), iname,
+ False, idx)
msg = result.fail_msg
if msg:
+ is_offline_secondary = (node in instance.secondary_nodes and
+ result.offline)
lu.proc.LogWarning("Could not prepare block device %s on node %s"
" (is_primary=False, pass=1): %s",
inst_disk.iv_name, node, msg)
- if not ignore_secondaries:
+ if not (ignore_secondaries or is_offline_secondary):
disks_ok = False
# FIXME: race condition on drbd migration to primary
node_disk = node_disk.Copy()
node_disk.UnsetSize()
lu.cfg.SetDiskID(node_disk, node)
- result = lu.rpc.call_blockdev_assemble(node, node_disk, iname, True, idx)
+ result = lu.rpc.call_blockdev_assemble(node, (node_disk, instance), iname,
+ True, idx)
msg = result.fail_msg
if msg:
lu.proc.LogWarning("Could not prepare block device %s on node %s"
for disk in disks:
for node, top_disk in disk.ComputeNodeTree(instance.primary_node):
lu.cfg.SetDiskID(top_disk, node)
- result = lu.rpc.call_blockdev_shutdown(node, top_disk)
+ result = lu.rpc.call_blockdev_shutdown(node, (top_disk, instance))
msg = result.fail_msg
if msg:
lu.LogWarning("Could not shutdown block device %s on node %s: %s",
"Cannot retrieve locked instance %s" % self.op.instance_name
_CheckNodeOnline(self, instance.primary_node, "Instance primary node"
" offline, cannot reinstall")
- for node in instance.secondary_nodes:
- _CheckNodeOnline(self, node, "Instance secondary node offline,"
- " cannot reinstall")
if instance.disk_template == constants.DT_DISKLESS:
raise errors.OpPrereqError("Instance '%s' has no disks" %
# activate, get path, copy the data over
for idx, disk in enumerate(instance.disks):
self.LogInfo("Copying data for disk %d", idx)
- result = self.rpc.call_blockdev_assemble(target_node, disk,
+ result = self.rpc.call_blockdev_assemble(target_node, (disk, instance),
instance.name, True, idx)
if result.fail_msg:
self.LogWarning("Can't assemble newly created disk %d: %s",
errs.append(result.fail_msg)
break
dev_path = result.payload
- result = self.rpc.call_blockdev_export(source_node, disk,
+ result = self.rpc.call_blockdev_export(source_node, (disk, instance),
target_node, dev_path,
cluster_name)
if result.fail_msg:
all_done = True
result = self.rpc.call_drbd_wait_sync(self.all_nodes,
self.nodes_ip,
- self.instance.disks)
+ (self.instance.disks,
+ self.instance))
min_percent = 100
for node, nres in result.items():
nres.Raise("Cannot resync disks on node %s" % node)
msg = "single-master"
self.feedback_fn("* changing disks into %s mode" % msg)
result = self.rpc.call_drbd_attach_net(self.all_nodes, self.nodes_ip,
- self.instance.disks,
+ (self.instance.disks, self.instance),
self.instance.name, multimaster)
for node, nres in result.items():
nres.Raise("Cannot change disks config on node %s" % node)
self.feedback_fn("* checking disk consistency between source and target")
for (idx, dev) in enumerate(instance.disks):
- if not _CheckDiskConsistency(self.lu, dev, target_node, False):
+ if not _CheckDiskConsistency(self.lu, instance, dev, target_node, False):
raise errors.OpExecError("Disk %s is degraded or not fully"
" synchronized on target node,"
" aborting migration" % idx)
disks = _ExpandCheckDisks(instance, instance.disks)
self.feedback_fn("* unmapping instance's disks from %s" % source_node)
for disk in disks:
- result = self.rpc.call_blockdev_shutdown(source_node, disk)
+ result = self.rpc.call_blockdev_shutdown(source_node, (disk, instance))
msg = result.fail_msg
if msg:
logging.error("Migration was successful, but couldn't unmap the"
self.feedback_fn("* checking disk consistency between source and target")
for (idx, dev) in enumerate(instance.disks):
# for drbd, these are drbd over lvm
- if not _CheckDiskConsistency(self.lu, dev, target_node, False):
+ if not _CheckDiskConsistency(self.lu, instance, dev, target_node,
+ False):
if primary_node.offline:
self.feedback_fn("Node %s is offline, ignoring degraded disk %s on"
" target node %s" %
return self._ExecMigration()
-def _CreateBlockDev(lu, node, instance, device, force_create,
- info, force_open):
+def _CreateBlockDev(lu, node, instance, device, force_create, info,
+ force_open):
+ """Wrapper around L{_CreateBlockDevInner}.
+
+ This method annotates the root device first.
+
+ """
+ (disk,) = _AnnotateDiskParams(instance, [device], lu.cfg)
+ return _CreateBlockDevInner(lu, node, instance, disk, force_create, info,
+ force_open)
+
+
+def _CreateBlockDevInner(lu, node, instance, device, force_create,
+ info, force_open):
"""Create a tree of block devices on a given node.
If this device type has to be created on secondaries, create it and
If not, just recurse to children keeping the same 'force' value.
+ @attention: The device has to be annotated already.
+
@param lu: the lu on whose behalf we execute
@param node: the node on which to create the device
@type instance: L{objects.Instance}
if device.children:
for child in device.children:
- _CreateBlockDev(lu, node, instance, child, force_create,
- info, force_open)
+ _CreateBlockDevInner(lu, node, instance, child, force_create,
+ info, force_open)
if not force_create:
return
return results
-def _ComputeLDParams(disk_template, disk_params):
- """Computes Logical Disk parameters from Disk Template parameters.
-
- @type disk_template: string
- @param disk_template: disk template, one of L{constants.DISK_TEMPLATES}
- @type disk_params: dict
- @param disk_params: disk template parameters; dict(template_name -> parameters
- @rtype: list(dict)
- @return: a list of dicts, one for each node of the disk hierarchy. Each dict
- contains the LD parameters of the node. The tree is flattened in-order.
-
- """
- if disk_template not in constants.DISK_TEMPLATES:
- raise errors.ProgrammerError("Unknown disk template %s" % disk_template)
-
- result = list()
- dt_params = disk_params[disk_template]
- if disk_template == constants.DT_DRBD8:
- drbd_params = {
- constants.LDP_RESYNC_RATE: dt_params[constants.DRBD_RESYNC_RATE],
- constants.LDP_BARRIERS: dt_params[constants.DRBD_DISK_BARRIERS],
- constants.LDP_NO_META_FLUSH: dt_params[constants.DRBD_META_BARRIERS],
- constants.LDP_DEFAULT_METAVG: dt_params[constants.DRBD_DEFAULT_METAVG],
- constants.LDP_DISK_CUSTOM: dt_params[constants.DRBD_DISK_CUSTOM],
- constants.LDP_NET_CUSTOM: dt_params[constants.DRBD_NET_CUSTOM],
- constants.LDP_DYNAMIC_RESYNC: dt_params[constants.DRBD_DYNAMIC_RESYNC],
- constants.LDP_PLAN_AHEAD: dt_params[constants.DRBD_PLAN_AHEAD],
- constants.LDP_FILL_TARGET: dt_params[constants.DRBD_FILL_TARGET],
- constants.LDP_DELAY_TARGET: dt_params[constants.DRBD_DELAY_TARGET],
- constants.LDP_MAX_RATE: dt_params[constants.DRBD_MAX_RATE],
- constants.LDP_MIN_RATE: dt_params[constants.DRBD_MIN_RATE],
- }
-
- drbd_params = \
- objects.FillDict(constants.DISK_LD_DEFAULTS[constants.LD_DRBD8],
- drbd_params)
-
- result.append(drbd_params)
-
- # data LV
- data_params = {
- constants.LDP_STRIPES: dt_params[constants.DRBD_DATA_STRIPES],
- }
- data_params = \
- objects.FillDict(constants.DISK_LD_DEFAULTS[constants.LD_LV],
- data_params)
- result.append(data_params)
-
- # metadata LV
- meta_params = {
- constants.LDP_STRIPES: dt_params[constants.DRBD_META_STRIPES],
- }
- meta_params = \
- objects.FillDict(constants.DISK_LD_DEFAULTS[constants.LD_LV],
- meta_params)
- result.append(meta_params)
-
- elif (disk_template == constants.DT_FILE or
- disk_template == constants.DT_SHARED_FILE):
- result.append(constants.DISK_LD_DEFAULTS[constants.LD_FILE])
-
- elif disk_template == constants.DT_PLAIN:
- params = {
- constants.LDP_STRIPES: dt_params[constants.LV_STRIPES],
- }
- params = \
- objects.FillDict(constants.DISK_LD_DEFAULTS[constants.LD_LV],
- params)
- result.append(params)
-
- elif disk_template == constants.DT_BLOCK:
- result.append(constants.DISK_LD_DEFAULTS[constants.LD_BLOCKDEV])
-
- elif disk_template == constants.DT_RBD:
- params = {
- constants.LDP_POOL: dt_params[constants.RBD_POOL]
- }
- params = \
- objects.FillDict(constants.DISK_LD_DEFAULTS[constants.LD_RBD],
- params)
- result.append(params)
-
- return result
-
-
def _GenerateDRBD8Branch(lu, primary, secondary, size, vgnames, names,
- iv_name, p_minor, s_minor, drbd_params, data_params,
- meta_params):
+ iv_name, p_minor, s_minor):
"""Generate a drbd8 device complete with its children.
"""
dev_data = objects.Disk(dev_type=constants.LD_LV, size=size,
logical_id=(vgnames[0], names[0]),
- params=data_params)
+ params={})
dev_meta = objects.Disk(dev_type=constants.LD_LV, size=DRBD_META_SIZE,
logical_id=(vgnames[1], names[1]),
- params=meta_params)
+ params={})
drbd_dev = objects.Disk(dev_type=constants.LD_DRBD8, size=size,
logical_id=(primary, secondary, port,
p_minor, s_minor,
shared_secret),
children=[dev_data, dev_meta],
- iv_name=iv_name, params=drbd_params)
+ iv_name=iv_name, params={})
return drbd_dev
def _GenerateDiskTemplate(lu, template_name, instance_name, primary_node,
secondary_nodes, disk_info, file_storage_dir, file_driver, base_index,
- feedback_fn, disk_params,
- _req_file_storage=opcodes.RequireFileStorage,
+ feedback_fn, full_disk_params, _req_file_storage=opcodes.RequireFileStorage,
_req_shr_file_storage=opcodes.RequireSharedFileStorage):
"""Generate the entire disk layout for a given template type.
vgname = lu.cfg.GetVGName()
disk_count = len(disk_info)
disks = []
- ld_params = _ComputeLDParams(template_name, disk_params)
if template_name == constants.DT_DISKLESS:
pass
elif template_name == constants.DT_DRBD8:
- drbd_params, data_params, meta_params = ld_params
if len(secondary_nodes) != 1:
raise errors.ProgrammerError("Wrong template configuration")
remote_node = secondary_nodes[0]
minors = lu.cfg.AllocateDRBDMinor(
[primary_node, remote_node] * len(disk_info), instance_name)
+ (drbd_params, _, _) = objects.Disk.ComputeLDParams(template_name,
+ full_disk_params)
+ drbd_default_metavg = drbd_params[constants.LDP_DEFAULT_METAVG]
+
names = []
for lv_prefix in _GenerateUniqueNames(lu, [".disk%d" % (base_index + i)
for i in range(disk_count)]):
names.append(lv_prefix + "_meta")
for idx, disk in enumerate(disk_info):
disk_index = idx + base_index
- drbd_default_metavg = drbd_params[constants.LDP_DEFAULT_METAVG]
data_vg = disk.get(constants.IDISK_VG, vgname)
meta_vg = disk.get(constants.IDISK_METAVG, drbd_default_metavg)
disk_dev = _GenerateDRBD8Branch(lu, primary_node, remote_node,
[data_vg, meta_vg],
names[idx * 2:idx * 2 + 2],
"disk/%d" % disk_index,
- minors[idx * 2], minors[idx * 2 + 1],
- drbd_params, data_params, meta_params)
+ minors[idx * 2], minors[idx * 2 + 1])
disk_dev.mode = disk[constants.IDISK_MODE]
disks.append(disk_dev)
else:
(name_prefix, base_index + i)
for i in range(disk_count)])
- dev_type = _DISK_TEMPLATE_DEVICE_TYPE[template_name]
-
if template_name == constants.DT_PLAIN:
def logical_id_fn(idx, _, disk):
vg = disk.get(constants.IDISK_VG, vgname)
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):
disk_index = idx + base_index
size = disk[constants.IDISK_SIZE]
logical_id=logical_id_fn(idx, disk_index, disk),
iv_name="disk/%d" % disk_index,
mode=disk[constants.IDISK_MODE],
- params=ld_params[0]))
+ params={}))
return disks
lu.cfg.SetDiskID(device, node)
logging.info("Pause sync of instance %s disks", instance.name)
- result = lu.rpc.call_blockdev_pause_resume_sync(node, instance.disks, True)
+ result = lu.rpc.call_blockdev_pause_resume_sync(node,
+ (instance.disks, instance),
+ True)
+ result.Raise("Failed RPC to node %s for pausing the disk syncing" % node)
for idx, success in enumerate(result.payload):
if not success:
wipe_size = min(wipe_chunk_size, size - offset)
logging.debug("Wiping disk %d, offset %s, chunk %s",
idx, offset, wipe_size)
- result = lu.rpc.call_blockdev_wipe(node, device, offset, wipe_size)
+ result = lu.rpc.call_blockdev_wipe(node, (device, instance), offset,
+ wipe_size)
result.Raise("Could not wipe disk %d at offset %d for size %d" %
(idx, offset, wipe_size))
now = time.time()
finally:
logging.info("Resume sync of instance %s disks", instance.name)
- result = lu.rpc.call_blockdev_pause_resume_sync(node, instance.disks, False)
+ result = lu.rpc.call_blockdev_pause_resume_sync(node,
+ (instance.disks, instance),
+ False)
- for idx, success in enumerate(result.payload):
- if not success:
- lu.LogWarning("Resume sync of disk %d failed, please have a"
- " look at the status and troubleshoot the issue", idx)
- logging.warn("resume-sync of instance %s for disks %d failed",
- instance.name, idx)
+ if result.fail_msg:
+ lu.LogWarning("RPC call to %s for resuming disk syncing failed,"
+ " please have a look at the status and troubleshoot"
+ " the issue: %s", node, result.fail_msg)
+ else:
+ for idx, success in enumerate(result.payload):
+ if not success:
+ lu.LogWarning("Resume sync of disk %d failed, please have a"
+ " look at the status and troubleshoot the issue", idx)
+ logging.warn("resume-sync of instance %s for disks %d failed",
+ instance.name, idx)
def _CreateDisks(lu, instance, to_skip=None, target_node=None):
all_result = True
ports_to_release = set()
- for (idx, device) in enumerate(instance.disks):
+ anno_disks = _AnnotateDiskParams(instance, instance.disks, lu.cfg)
+ for (idx, device) in enumerate(anno_disks):
if target_node:
edata = [(target_node, device)]
else:
edata = device.ComputeNodeTree(instance.primary_node)
for node, disk in edata:
lu.cfg.SetDiskID(disk, node)
- msg = lu.rpc.call_blockdev_remove(node, disk).fail_msg
- if msg:
+ result = lu.rpc.call_blockdev_remove(node, disk)
+ if result.fail_msg:
lu.LogWarning("Could not remove disk %s on node %s,"
- " continuing anyway: %s", idx, node, msg)
- all_result = False
+ " continuing anyway: %s", idx, node, result.fail_msg)
+ if not (result.offline and node != instance.primary_node):
+ all_result = False
# if this is a DRBD disk, return its port to the pool
if device.dev_type in constants.LDS_DRBD:
def _ComputeDiskSize(disk_template, disks):
- """Compute disk size requirements in the volume group
+ """Compute disk size requirements according to disk template
"""
# Required free disk space as a function of disk and swap space
# 128 MB are added for drbd metadata for each disk
constants.DT_DRBD8:
sum(d[constants.IDISK_SIZE] + DRBD_META_SIZE for d in disks),
- constants.DT_FILE: None,
- constants.DT_SHARED_FILE: 0,
+ constants.DT_FILE: sum(d[constants.IDISK_SIZE] for d in disks),
+ constants.DT_SHARED_FILE: sum(d[constants.IDISK_SIZE] for d in disks),
constants.DT_BLOCK: 0,
- constants.DT_RBD: 0,
+ constants.DT_RBD: sum(d[constants.IDISK_SIZE] for d in disks),
}
if disk_template not in req_size_dict:
"""Run the allocator based on input opcode.
"""
+ #TODO Export network to iallocator so that it chooses a pnode
+ # in a nodegroup that has the desired network connected to
nics = [n.ToDict() for n in self.nics]
ial = IAllocator(self.cfg, self.rpc,
mode=constants.IALLOCATOR_MODE_ALLOC,
if self.op.mode == constants.INSTANCE_IMPORT:
export_info = self._ReadExportInfo()
self._ReadExportParams(export_info)
+ self._old_instance_name = export_info.get(constants.INISECT_INS, "name")
+ else:
+ self._old_instance_name = None
if (not self.cfg.GetVGName() and
self.op.disk_template not in constants.DTS_NOT_LVM):
if nic_mode is None or nic_mode == constants.VALUE_AUTO:
nic_mode = cluster.nicparams[constants.PP_DEFAULT][constants.NIC_MODE]
- # in routed mode, for the first nic, the default ip is 'auto'
- if nic_mode == constants.NIC_MODE_ROUTED and idx == 0:
- default_ip_mode = constants.VALUE_AUTO
+ net = nic.get(constants.INIC_NETWORK, None)
+ link = nic.get(constants.NIC_LINK, None)
+ ip = nic.get(constants.INIC_IP, None)
+
+ if net is None or net.lower() == constants.VALUE_NONE:
+ net = None
else:
- default_ip_mode = constants.VALUE_NONE
+ if nic_mode_req is not None or link is not None:
+ raise errors.OpPrereqError("If network is given, no mode or link"
+ " is allowed to be passed",
+ errors.ECODE_INVAL)
# ip validity checks
- ip = nic.get(constants.INIC_IP, default_ip_mode)
if ip is None or ip.lower() == constants.VALUE_NONE:
nic_ip = None
elif ip.lower() == constants.VALUE_AUTO:
errors.ECODE_INVAL)
nic_ip = self.hostname1.ip
else:
- if not netutils.IPAddress.IsValid(ip):
+ # We defer pool operations until later, so that the iallocator has
+ # filled in the instance's node(s) dimara
+ if ip.lower() == constants.NIC_IP_POOL:
+ if net is None:
+ raise errors.OpPrereqError("if ip=pool, parameter network"
+ " must be passed too",
+ errors.ECODE_INVAL)
+
+ elif not netutils.IPAddress.IsValid(ip):
raise errors.OpPrereqError("Invalid IP address '%s'" % ip,
errors.ECODE_INVAL)
+
nic_ip = ip
# TODO: check the ip address for uniqueness
errors.ECODE_NOTUNIQUE)
# Build nic parameters
- link = nic.get(constants.INIC_LINK, None)
- if link == constants.VALUE_AUTO:
- link = cluster.nicparams[constants.PP_DEFAULT][constants.NIC_LINK]
nicparams = {}
if nic_mode_req:
nicparams[constants.NIC_MODE] = nic_mode
check_params = cluster.SimpleFillNIC(nicparams)
objects.NIC.CheckParameterSyntax(check_params)
- self.nics.append(objects.NIC(mac=mac, ip=nic_ip, nicparams=nicparams))
+ self.nics.append(objects.NIC(mac=mac, ip=nic_ip,
+ network=net, nicparams=check_params))
# disk checks/pre-build
default_vg = self.cfg.GetVGName()
self.src_images = disk_images
- old_name = export_info.get(constants.INISECT_INS, "name")
- if self.op.instance_name == old_name:
+ if self.op.instance_name == self._old_instance_name:
for idx, nic in enumerate(self.nics):
if nic.mac == constants.VALUE_AUTO:
nic_mac_ini = "nic%d_mac" % idx
self.secondaries = []
+ # Fill in any IPs from IP pools. This must happen here, because we need to
+ # know the nic's primary node, as specified by the iallocator
+ for idx, nic in enumerate(self.nics):
+ net = nic.network
+ if net is not None:
+ netparams = self.cfg.GetGroupNetParams(net, self.pnode.name)
+ if netparams is None:
+ raise errors.OpPrereqError("No netparams found for network"
+ " %s. Propably not connected to"
+ " node's %s nodegroup" %
+ (net, self.pnode.name),
+ errors.ECODE_INVAL)
+ self.LogInfo("NIC/%d inherits netparams %s" %
+ (idx, netparams.values()))
+ nic.nicparams = dict(netparams)
+ if nic.ip is not None:
+ filled_params = cluster.SimpleFillNIC(nic.nicparams)
+ if nic.ip.lower() == constants.NIC_IP_POOL:
+ try:
+ nic.ip = self.cfg.GenerateIp(net, self.proc.GetECId())
+ except errors.ReservationError:
+ raise errors.OpPrereqError("Unable to get a free IP for NIC %d"
+ " from the address pool" % idx,
+ errors.ECODE_STATE)
+ self.LogInfo("Chose IP %s from network %s", nic.ip, net)
+ else:
+ try:
+ self.cfg.ReserveIp(net, nic.ip, self.proc.GetECId())
+ except errors.ReservationError:
+ raise errors.OpPrereqError("IP address %s already in use"
+ " 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)
+
+
# mirror node verification
if self.op.disk_template in constants.DTS_INT_MIRROR:
if self.op.snode == pnode.name:
utils.CommaJoin(res)),
errors.ECODE_INVAL)
- # disk parameters (not customizable at instance or node level)
- # just use the primary node parameters, ignoring the secondary.
- self.diskparams = group_info.diskparams
-
if not self.adopt_disks:
if self.op.disk_template == constants.DT_RBD:
# _CheckRADOSFreeSpace() is just a placeholder.
else:
network_port = None
+ # This is ugly but we got a chicken-egg problem here
+ # We can only take the group disk parameters, as the instance
+ # has no disks yet (we are generating them right here).
+ node = self.cfg.GetNodeInfo(pnode_name)
+ nodegroup = self.cfg.GetNodeGroup(node.group)
disks = _GenerateDiskTemplate(self,
self.op.disk_template,
instance, pnode_name,
self.op.file_driver,
0,
feedback_fn,
- self.diskparams)
+ self.cfg.GetGroupDiskParams(nodegroup))
iobj = objects.Instance(name=instance, os=self.op.os_type,
primary_node=pnode_name,
_ReleaseLocks(self, locking.LEVEL_NODE_RES)
if iobj.disk_template != constants.DT_DISKLESS and not self.adopt_disks:
+ # we need to set the disks ID to the primary node, since the
+ # preceding code might or might have not done it, depending on
+ # disk template and other options
+ for disk in iobj.disks:
+ self.cfg.SetDiskID(disk, pnode_name)
if self.op.mode == constants.INSTANCE_CREATE:
if not self.op.no_install:
pause_sync = (iobj.disk_template in constants.DTS_INT_MIRROR and
if pause_sync:
feedback_fn("* pausing disk sync to install instance OS")
result = self.rpc.call_blockdev_pause_resume_sync(pnode_name,
- iobj.disks, True)
+ (iobj.disks,
+ iobj), True)
for idx, success in enumerate(result.payload):
if not success:
logging.warn("pause-sync of instance %s for disk %d failed",
if pause_sync:
feedback_fn("* resuming disk sync")
result = self.rpc.call_blockdev_pause_resume_sync(pnode_name,
- iobj.disks, False)
+ (iobj.disks,
+ iobj), False)
for idx, success in enumerate(result.payload):
if not success:
logging.warn("resume-sync of instance %s for disk %d failed",
os_add_result.Raise("Could not add os for instance %s"
" on node %s" % (instance, pnode_name))
- elif self.op.mode == constants.INSTANCE_IMPORT:
- feedback_fn("* running the instance OS import scripts...")
+ else:
+ if self.op.mode == constants.INSTANCE_IMPORT:
+ feedback_fn("* running the instance OS import scripts...")
+
+ transfers = []
+
+ for idx, image in enumerate(self.src_images):
+ if not image:
+ continue
+
+ # FIXME: pass debug option from opcode to backend
+ dt = masterd.instance.DiskTransfer("disk/%s" % idx,
+ constants.IEIO_FILE, (image, ),
+ constants.IEIO_SCRIPT,
+ (iobj.disks[idx], idx),
+ None)
+ transfers.append(dt)
+
+ import_result = \
+ masterd.instance.TransferInstanceData(self, feedback_fn,
+ self.op.src_node, pnode_name,
+ self.pnode.secondary_ip,
+ iobj, transfers)
+ if not compat.all(import_result):
+ self.LogWarning("Some disks for instance %s on node %s were not"
+ " imported successfully" % (instance, pnode_name))
+
+ rename_from = self._old_instance_name
+
+ elif self.op.mode == constants.INSTANCE_REMOTE_IMPORT:
+ feedback_fn("* preparing remote import...")
+ # The source cluster will stop the instance before attempting to make
+ # a connection. In some cases stopping an instance can take a long
+ # time, hence the shutdown timeout is added to the connection
+ # timeout.
+ connect_timeout = (constants.RIE_CONNECT_TIMEOUT +
+ self.op.source_shutdown_timeout)
+ timeouts = masterd.instance.ImportExportTimeouts(connect_timeout)
- transfers = []
+ assert iobj.primary_node == self.pnode.name
+ disk_results = \
+ masterd.instance.RemoteImport(self, feedback_fn, iobj, self.pnode,
+ self.source_x509_ca,
+ self._cds, timeouts)
+ if not compat.all(disk_results):
+ # TODO: Should the instance still be started, even if some disks
+ # failed to import (valid for local imports, too)?
+ self.LogWarning("Some disks for instance %s on node %s were not"
+ " imported successfully" % (instance, pnode_name))
- for idx, image in enumerate(self.src_images):
- if not image:
- continue
+ rename_from = self.source_instance_name
- # FIXME: pass debug option from opcode to backend
- dt = masterd.instance.DiskTransfer("disk/%s" % idx,
- constants.IEIO_FILE, (image, ),
- constants.IEIO_SCRIPT,
- (iobj.disks[idx], idx),
- None)
- transfers.append(dt)
-
- import_result = \
- masterd.instance.TransferInstanceData(self, feedback_fn,
- self.op.src_node, pnode_name,
- self.pnode.secondary_ip,
- iobj, transfers)
- if not compat.all(import_result):
- self.LogWarning("Some disks for instance %s on node %s were not"
- " imported successfully" % (instance, pnode_name))
-
- elif self.op.mode == constants.INSTANCE_REMOTE_IMPORT:
- feedback_fn("* preparing remote import...")
- # The source cluster will stop the instance before attempting to make a
- # connection. In some cases stopping an instance can take a long time,
- # hence the shutdown timeout is added to the connection timeout.
- connect_timeout = (constants.RIE_CONNECT_TIMEOUT +
- self.op.source_shutdown_timeout)
- timeouts = masterd.instance.ImportExportTimeouts(connect_timeout)
-
- assert iobj.primary_node == self.pnode.name
- disk_results = \
- masterd.instance.RemoteImport(self, feedback_fn, iobj, self.pnode,
- self.source_x509_ca,
- self._cds, timeouts)
- if not compat.all(disk_results):
- # TODO: Should the instance still be started, even if some disks
- # failed to import (valid for local imports, too)?
- self.LogWarning("Some disks for instance %s on node %s were not"
- " imported successfully" % (instance, pnode_name))
+ else:
+ # also checked in the prereq part
+ raise errors.ProgrammerError("Unknown OS initialization mode '%s'"
+ % self.op.mode)
# Run rename script on newly imported instance
assert iobj.name == instance
feedback_fn("Running rename script for %s" % instance)
result = self.rpc.call_instance_run_rename(pnode_name, iobj,
- self.source_instance_name,
+ rename_from,
self.op.debug_level)
if result.fail_msg:
self.LogWarning("Failed to run rename script for %s on node"
" %s: %s" % (instance, pnode_name, result.fail_msg))
- else:
- # also checked in the prereq part
- raise errors.ProgrammerError("Unknown OS initialization mode '%s'"
- % self.op.mode)
-
assert not self.owned_locks(locking.LEVEL_NODE_RES)
if self.op.start:
self.lu.LogInfo("Checking disk/%d on %s", idx, node)
self.cfg.SetDiskID(dev, node)
- result = self.rpc.call_blockdev_find(node, dev)
+ result = _BlockdevFind(self, node, dev, instance)
if result.offline:
continue
_CheckTargetNodeIPolicy(self, ipolicy, instance, self.remote_node_info,
ignore=self.ignore_ipolicy)
- # TODO: compute disk parameters
- primary_node_info = self.cfg.GetNodeInfo(instance.primary_node)
- secondary_node_info = self.cfg.GetNodeInfo(secondary_node)
- if primary_node_info.group != secondary_node_info.group:
- self.lu.LogInfo("The instance primary and secondary nodes are in two"
- " different node groups; the disk parameters of the"
- " primary node's group will be applied.")
-
- self.diskparams = self.cfg.GetNodeGroup(primary_node_info.group).diskparams
-
for node in check_nodes:
_CheckNodeOnline(self.lu, node)
self.lu.LogInfo("Checking disk/%d on %s" % (idx, node))
self.cfg.SetDiskID(dev, node)
- result = self.rpc.call_blockdev_find(node, dev)
+ result = _BlockdevFind(self, node, dev, self.instance)
msg = result.fail_msg
if msg or not result.payload:
self.lu.LogInfo("Checking disk/%d consistency on node %s" %
(idx, node_name))
- if not _CheckDiskConsistency(self.lu, dev, node_name, on_primary,
- ldisk=ldisk):
+ if not _CheckDiskConsistency(self.lu, self.instance, dev, node_name,
+ on_primary, ldisk=ldisk):
raise errors.OpExecError("Node %s has degraded storage, unsafe to"
" replace disks for instance %s" %
(node_name, self.instance.name))
"""
iv_names = {}
- for idx, dev in enumerate(self.instance.disks):
+ disks = _AnnotateDiskParams(self.instance, self.instance.disks, self.cfg)
+ for idx, dev in enumerate(disks):
if idx not in self.disks:
continue
lv_names = [".disk%d_%s" % (idx, suffix) for suffix in ["data", "meta"]]
names = _GenerateUniqueNames(self.lu, lv_names)
- _, data_p, meta_p = _ComputeLDParams(constants.DT_DRBD8, self.diskparams)
-
- vg_data = dev.children[0].logical_id[0]
+ (data_disk, meta_disk) = dev.children
+ vg_data = data_disk.logical_id[0]
lv_data = objects.Disk(dev_type=constants.LD_LV, size=dev.size,
- logical_id=(vg_data, names[0]), params=data_p)
- vg_meta = dev.children[1].logical_id[0]
+ logical_id=(vg_data, names[0]),
+ params=data_disk.params)
+ vg_meta = meta_disk.logical_id[0]
lv_meta = objects.Disk(dev_type=constants.LD_LV, size=DRBD_META_SIZE,
- logical_id=(vg_meta, names[1]), params=meta_p)
+ logical_id=(vg_meta, names[1]),
+ params=meta_disk.params)
new_lvs = [lv_data, lv_meta]
old_lvs = [child.Copy() for child in dev.children]
# we pass force_create=True to force the LVM creation
for new_lv in new_lvs:
- _CreateBlockDev(self.lu, node_name, self.instance, new_lv, True,
- _GetInstanceInfoText(self.instance), False)
+ _CreateBlockDevInner(self.lu, node_name, self.instance, new_lv, True,
+ _GetInstanceInfoText(self.instance), False)
return iv_names
for name, (dev, _, _) in iv_names.iteritems():
self.cfg.SetDiskID(dev, node_name)
- result = self.rpc.call_blockdev_find(node_name, dev)
+ result = _BlockdevFind(self, node_name, dev, self.instance)
msg = result.fail_msg
if msg or not result.payload:
# Now that the new lvs have the old name, we can add them to the device
self.lu.LogInfo("Adding new mirror component on %s" % self.target_node)
- result = self.rpc.call_blockdev_addchildren(self.target_node, dev,
- new_lvs)
+ result = self.rpc.call_blockdev_addchildren(self.target_node,
+ (dev, self.instance), new_lvs)
msg = result.fail_msg
if msg:
for new_lv in new_lvs:
# Step: create new storage
self.lu.LogStep(3, steps_total, "Allocate new storage")
- for idx, dev in enumerate(self.instance.disks):
+ disks = _AnnotateDiskParams(self.instance, self.instance.disks, self.cfg)
+ 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:
- _CreateBlockDev(self.lu, self.new_node, self.instance, new_lv, True,
- _GetInstanceInfoText(self.instance), False)
+ _CreateBlockDevInner(self.lu, self.new_node, self.instance, new_lv,
+ True, _GetInstanceInfoText(self.instance), False)
# Step 4: dbrd minors and drbd setups changes
# after this, we must manually remove the drbd minors on both the
iv_names[idx] = (dev, dev.children, new_net_id)
logging.debug("Allocated new_minor: %s, new_logical_id: %s", new_minor,
new_net_id)
- drbd_params, _, _ = _ComputeLDParams(constants.DT_DRBD8, self.diskparams)
new_drbd = objects.Disk(dev_type=constants.LD_DRBD8,
logical_id=new_alone_id,
children=dev.children,
size=dev.size,
- params=drbd_params)
+ params={})
+ (anno_new_drbd,) = _AnnotateDiskParams(self.instance, [new_drbd],
+ self.cfg)
try:
- _CreateSingleBlockDev(self.lu, self.new_node, self.instance, new_drbd,
+ _CreateSingleBlockDev(self.lu, self.new_node, self.instance,
+ anno_new_drbd,
_GetInstanceInfoText(self.instance), False)
except errors.GenericError:
self.cfg.ReleaseDRBDMinors(self.instance.name)
for idx, dev in enumerate(self.instance.disks):
self.lu.LogInfo("Shutting down drbd for disk/%d on old node" % idx)
self.cfg.SetDiskID(dev, self.target_node)
- msg = self.rpc.call_blockdev_shutdown(self.target_node, dev).fail_msg
+ msg = self.rpc.call_blockdev_shutdown(self.target_node,
+ (dev, self.instance)).fail_msg
if msg:
self.lu.LogWarning("Failed to shutdown drbd for disk/%d on old"
"node: %s" % (idx, msg),
result = self.rpc.call_drbd_attach_net([self.instance.primary_node,
self.new_node],
self.node_secondary_ip,
- self.instance.disks,
+ (self.instance.disks, self.instance),
self.instance.name,
False)
for to_node, to_result in result.items():
env = {
"DISK": self.op.disk,
"AMOUNT": self.op.amount,
+ "ABSOLUTE": self.op.absolute,
}
env.update(_BuildInstanceHookEnvByObject(self, self.instance))
return env
self.disk = instance.FindDisk(self.op.disk)
+ if self.op.absolute:
+ self.target = self.op.amount
+ self.delta = self.target - self.disk.size
+ if self.delta < 0:
+ raise errors.OpPrereqError("Requested size (%s) is smaller than "
+ "current disk size (%s)" %
+ (utils.FormatUnit(self.target, "h"),
+ utils.FormatUnit(self.disk.size, "h")),
+ errors.ECODE_STATE)
+ else:
+ self.delta = self.op.amount
+ self.target = self.disk.size + self.delta
+ if self.delta < 0:
+ raise errors.OpPrereqError("Requested increment (%s) is negative" %
+ utils.FormatUnit(self.delta, "h"),
+ errors.ECODE_INVAL)
+
if instance.disk_template not in (constants.DT_FILE,
constants.DT_SHARED_FILE,
constants.DT_RBD):
# TODO: check the free disk space for file, when that feature will be
# supported
_CheckNodesFreeDiskPerVG(self, nodenames,
- self.disk.ComputeGrowth(self.op.amount))
+ self.disk.ComputeGrowth(self.delta))
def Exec(self, feedback_fn):
"""Execute disk grow.
if not disks_ok:
raise errors.OpExecError("Cannot activate block device to grow")
- feedback_fn("Growing disk %s of instance '%s' by %s" %
+ feedback_fn("Growing disk %s of instance '%s' by %s to %s" %
(self.op.disk, instance.name,
- utils.FormatUnit(self.op.amount, "h")))
+ utils.FormatUnit(self.delta, "h"),
+ utils.FormatUnit(self.target, "h")))
# First run all grow ops in dry-run mode
for node in instance.all_nodes:
self.cfg.SetDiskID(disk, node)
- result = self.rpc.call_blockdev_grow(node, disk, self.op.amount, True)
+ result = self.rpc.call_blockdev_grow(node, (disk, instance), self.delta,
+ True)
result.Raise("Grow request failed to node %s" % node)
# We know that (as far as we can test) operations across different
# nodes will succeed, time to run it for real
for node in instance.all_nodes:
self.cfg.SetDiskID(disk, node)
- result = self.rpc.call_blockdev_grow(node, disk, self.op.amount, False)
+ result = self.rpc.call_blockdev_grow(node, (disk, instance), self.delta,
+ False)
result.Raise("Grow request failed to node %s" % node)
# TODO: Rewrite code to work properly
# time is a work-around.
time.sleep(5)
- disk.RecordGrow(self.op.amount)
+ disk.RecordGrow(self.delta)
self.cfg.Update(instance, feedback_fn)
# Changes have been recorded, release node lock
self.wanted_instances = instances.values()
- def _ComputeBlockdevStatus(self, node, instance_name, dev):
+ def _ComputeBlockdevStatus(self, node, instance, dev):
"""Returns the status of a block device
"""
if result.offline:
return None
- result.Raise("Can't compute disk status for %s" % instance_name)
+ result.Raise("Can't compute disk status for %s" % instance.name)
status = result.payload
if status is None:
"""Compute block device status.
"""
+ (anno_dev,) = _AnnotateDiskParams(instance, [dev], self.cfg)
+
+ return self._ComputeDiskStatusInner(instance, snode, anno_dev)
+
+ def _ComputeDiskStatusInner(self, instance, snode, dev):
+ """Compute block device status.
+
+ @attention: The device has to be annotated already.
+
+ """
if dev.dev_type in constants.LDS_DRBD:
# we change the snode then (otherwise we use the one passed in)
if dev.logical_id[0] == instance.primary_node:
snode = dev.logical_id[0]
dev_pstatus = self._ComputeBlockdevStatus(instance.primary_node,
- instance.name, dev)
- dev_sstatus = self._ComputeBlockdevStatus(snode, instance.name, dev)
+ instance, dev)
+ dev_sstatus = self._ComputeBlockdevStatus(snode, instance, dev)
if dev.children:
- dev_children = map(compat.partial(self._ComputeDiskStatus,
+ dev_children = map(compat.partial(self._ComputeDiskStatusInner,
instance, snode),
dev.children)
else:
private.params = new_params
private.filled = new_filled_params
- return (None, None)
-
def CheckPrereq(self):
"""Check prerequisites.
pnode = instance.primary_node
nodelist = list(instance.all_nodes)
pnode_info = self.cfg.GetNodeInfo(pnode)
- self.diskparams = self.cfg.GetNodeGroup(pnode_info.group).diskparams
+ self.diskparams = self.cfg.GetInstanceDiskParams(instance)
# Prepare disk/NIC modifications
self.diskmod = PrepareContainerMods(self.op.disks, None)
self.be_proposed = cluster.SimpleFillBE(instance.beparams)
be_old = cluster.FillBE(instance)
- # CPU param validation -- checking every time a paramtere is
+ # CPU param validation -- checking every time a parameter is
# changed to cover all cases where either CPU mask or vcpus have
# changed
if (constants.BE_VCPUS in self.be_proposed and
errors.ECODE_INVAL)
def _PrepareNicCreate(_, params, private):
- return self._PrepareNicModification(params, private, None, {},
- cluster, pnode)
+ self._PrepareNicModification(params, private, None, {}, cluster, pnode)
+ return (None, None)
def _PrepareNicMod(_, nic, params, private):
- return self._PrepareNicModification(params, private, nic.ip,
- nic.nicparams, cluster, pnode)
+ self._PrepareNicModification(params, private, nic.ip,
+ nic.nicparams, cluster, pnode)
+ return None
# Verify NIC changes (operating on copy)
nics = instance.nics[:]
instance.name, pnode, [snode],
disk_info, None, None, 0, feedback_fn,
self.diskparams)
+ anno_disks = rpc.AnnotateDiskParams(constants.DT_DRBD8, new_disks,
+ self.diskparams)
info = _GetInstanceInfoText(instance)
feedback_fn("Creating additional volumes...")
# first, create the missing data and meta devices
- for disk in new_disks:
+ for disk in anno_disks:
# unfortunately this is... not too nice
_CreateSingleBlockDev(self, pnode, instance, disk.children[1],
info, True)
feedback_fn("Initializing DRBD devices...")
# all child devices are in place, we can now create the DRBD devices
- for disk in new_disks:
+ for disk in anno_disks:
for node in [pnode, snode]:
f_create = node == pnode
_CreateSingleBlockDev(self, node, instance, disk, info, f_create)
snode = instance.secondary_nodes[0]
feedback_fn("Converting template to plain")
- old_disks = instance.disks
- new_disks = [d.children[0] for d in old_disks]
+ old_disks = _AnnotateDiskParams(instance, instance.disks, self.cfg)
+ new_disks = [d.children[0] for d in instance.disks]
# copy over size and mode
for parent, child in zip(old_disks, new_disks):
"""Removes a disk.
"""
- for node, disk in root.ComputeNodeTree(self.instance.primary_node):
+ (anno_disk,) = _AnnotateDiskParams(self.instance, [root], self.cfg)
+ for node, disk in anno_disk.ComputeNodeTree(self.instance.primary_node):
self.cfg.SetDiskID(disk, node)
msg = self.rpc.call_blockdev_remove(node, disk).fail_msg
if msg:
"""
REQ_BGL = False
+ def CheckArguments(self):
+ self.expq = _ExportQuery(qlang.MakeSimpleFilter("node", self.op.nodes),
+ ["node", "export"], self.op.use_locking)
+
def ExpandNames(self):
- self.needed_locks = {}
- self.share_locks[locking.LEVEL_NODE] = 1
- if not self.op.nodes:
- self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET
- else:
- self.needed_locks[locking.LEVEL_NODE] = \
- _GetWantedNodes(self, self.op.nodes)
+ self.expq.ExpandNames(self)
+
+ def DeclareLocks(self, level):
+ self.expq.DeclareLocks(self, level)
def Exec(self, feedback_fn):
- """Compute the list of all the exported system images.
+ result = {}
+
+ for (node, expname) in self.expq.OldStyleQuery(self):
+ if expname is None:
+ result[node] = False
+ else:
+ result.setdefault(node, []).append(expname)
+
+ return result
- @rtype: dict
- @return: a dictionary with the structure node->(export-list)
- where export-list is a list of the instances exported on
- that node.
+
+class _ExportQuery(_QueryBase):
+ FIELDS = query.EXPORT_FIELDS
+
+ #: The node name is not a unique key for this query
+ SORT_FIELD = "node"
+
+ def ExpandNames(self, lu):
+ lu.needed_locks = {}
+
+ # The following variables interact with _QueryBase._GetNames
+ if self.names:
+ self.wanted = _GetWantedNodes(lu, self.names)
+ else:
+ self.wanted = locking.ALL_SET
+
+ self.do_locking = self.use_locking
+
+ if self.do_locking:
+ lu.share_locks = _ShareAll()
+ lu.needed_locks = {
+ locking.LEVEL_NODE: self.wanted,
+ }
+
+ def DeclareLocks(self, lu, level):
+ pass
+
+ def _GetQueryData(self, lu):
+ """Computes the list of nodes and their attributes.
"""
- self.nodes = self.owned_locks(locking.LEVEL_NODE)
- rpcresult = self.rpc.call_export_list(self.nodes)
- result = {}
- for node in rpcresult:
- if rpcresult[node].fail_msg:
- result[node] = False
+ # Locking is not used
+ # TODO
+ assert not (compat.any(lu.glm.is_owned(level)
+ for level in locking.LEVELS
+ if level != locking.LEVEL_CLUSTER) or
+ self.do_locking or self.use_locking)
+
+ nodes = self._GetNames(lu, lu.cfg.GetNodeList(), locking.LEVEL_NODE)
+
+ result = []
+
+ for (node, nres) in lu.rpc.call_export_list(nodes).items():
+ if nres.fail_msg:
+ result.append((node, None))
else:
- result[node] = rpcresult[node].payload
+ result.extend((node, expname) for expname in nres.payload)
return result
if self.op.diskparams:
for templ in constants.DISK_TEMPLATES:
- if templ not in self.op.diskparams:
- self.op.diskparams[templ] = {}
- utils.ForceDictType(self.op.diskparams[templ], constants.DISK_DT_TYPES)
+ if templ in self.op.diskparams:
+ utils.ForceDictType(self.op.diskparams[templ],
+ constants.DISK_DT_TYPES)
+ self.new_diskparams = self.op.diskparams
+ try:
+ utils.VerifyDictOptions(self.new_diskparams, constants.DISK_DT_DEFAULTS)
+ except errors.OpPrereqError, err:
+ raise errors.OpPrereqError("While verify diskparams options: %s" % err,
+ errors.ECODE_INVAL)
else:
- self.op.diskparams = self.cfg.GetClusterInfo().diskparams
+ self.new_diskparams = {}
if self.op.ipolicy:
cluster = self.cfg.GetClusterInfo()
full_ipolicy = cluster.SimpleFillIPolicy(self.op.ipolicy)
try:
- objects.InstancePolicy.CheckParameterSyntax(full_ipolicy)
+ objects.InstancePolicy.CheckParameterSyntax(full_ipolicy, False)
except errors.ConfigurationError, err:
raise errors.OpPrereqError("Invalid instance policy: %s" % err,
errors.ECODE_INVAL)
uuid=self.group_uuid,
alloc_policy=self.op.alloc_policy,
ndparams=self.op.ndparams,
- diskparams=self.op.diskparams,
+ diskparams=self.new_diskparams,
ipolicy=self.op.ipolicy,
hv_state_static=self.new_hv_state,
disk_state_static=self.new_disk_state)
return query.GroupQueryData(self._cluster,
[self._all_groups[uuid]
for uuid in self.wanted],
- group_to_nodes, group_to_instances)
+ group_to_nodes, group_to_instances,
+ query.GQ_DISKPARAMS in self.requested_data)
class LUGroupQuery(NoHooksLU):
self.needed_locks[locking.LEVEL_INSTANCE] = \
self.cfg.GetNodeGroupInstances(self.group_uuid)
+ @staticmethod
+ def _UpdateAndVerifyDiskParams(old, new):
+ """Updates and verifies disk parameters.
+
+ """
+ new_params = _GetUpdatedParams(old, new)
+ utils.ForceDictType(new_params, constants.DISK_DT_TYPES)
+ return new_params
+
def CheckPrereq(self):
"""Check prerequisites.
if self.op.ndparams:
new_ndparams = _GetUpdatedParams(self.group.ndparams, self.op.ndparams)
- utils.ForceDictType(self.op.ndparams, constants.NDS_PARAMETER_TYPES)
+ utils.ForceDictType(new_ndparams, constants.NDS_PARAMETER_TYPES)
self.new_ndparams = new_ndparams
if self.op.diskparams:
- self.new_diskparams = dict()
- for templ in constants.DISK_TEMPLATES:
- if templ not in self.op.diskparams:
- self.op.diskparams[templ] = {}
- new_templ_params = _GetUpdatedParams(self.group.diskparams[templ],
- self.op.diskparams[templ])
- utils.ForceDictType(new_templ_params, constants.DISK_DT_TYPES)
- self.new_diskparams[templ] = new_templ_params
+ diskparams = self.group.diskparams
+ uavdp = self._UpdateAndVerifyDiskParams
+ # For each disktemplate subdict update and verify the values
+ new_diskparams = dict((dt,
+ uavdp(diskparams.get(dt, {}),
+ self.op.diskparams[dt]))
+ for dt in constants.DISK_TEMPLATES
+ if dt in self.op.diskparams)
+ # As we've all subdicts of diskparams ready, lets merge the actual
+ # dict with all updated subdicts
+ self.new_diskparams = objects.FillDict(diskparams, new_diskparams)
+ try:
+ utils.VerifyDictOptions(self.new_diskparams, constants.DISK_DT_DEFAULTS)
+ except errors.OpPrereqError, err:
+ raise errors.OpPrereqError("While verify diskparams options: %s" % err,
+ errors.ECODE_INVAL)
if self.op.hv_state:
self.new_hv_state = _MergeAndVerifyHvState(self.op.hv_state,
def ExpandNames(self):
self.group_uuid = None
self.needed_locks = {}
+
if self.op.kind == constants.TAG_NODE:
self.op.name = _ExpandNodeName(self.cfg, self.op.name)
- self.needed_locks[locking.LEVEL_NODE] = self.op.name
+ lock_level = locking.LEVEL_NODE
+ lock_name = self.op.name
elif self.op.kind == constants.TAG_INSTANCE:
self.op.name = _ExpandInstanceName(self.cfg, self.op.name)
- self.needed_locks[locking.LEVEL_INSTANCE] = self.op.name
+ lock_level = locking.LEVEL_INSTANCE
+ lock_name = self.op.name
elif self.op.kind == constants.TAG_NODEGROUP:
self.group_uuid = self.cfg.LookupNodeGroup(self.op.name)
+ lock_level = locking.LEVEL_NODEGROUP
+ lock_name = self.group_uuid
+ else:
+ lock_level = None
+ lock_name = None
+
+ if lock_level and getattr(self.op, "use_locking", True):
+ self.needed_locks[lock_level] = lock_name
# FIXME: Acquire BGL for cluster tag operations (as of this writing it's
# not possible to acquire the BGL based on opcode parameters)
"ip": nic.ip,
"mode": filled_params[constants.NIC_MODE],
"link": filled_params[constants.NIC_LINK],
+ "network": nic.network,
}
if filled_params[constants.NIC_MODE] == constants.NIC_MODE_BRIDGED:
nic_dict["bridge"] = filled_params[constants.NIC_LINK]
result = ial.out_text
return result
+# Network LUs
+class LUNetworkAdd(LogicalUnit):
+ """Logical unit for creating networks.
+
+ """
+ HPATH = "network-add"
+ HTYPE = constants.HTYPE_NETWORK
+ REQ_BGL = False
+
+ def BuildHooksNodes(self):
+ """Build hooks nodes.
+
+ """
+ mn = self.cfg.GetMasterNode()
+ return ([mn], [mn])
+
+ def ExpandNames(self):
+ self.network_uuid = self.cfg.GenerateUniqueID(self.proc.GetECId())
+ 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)
+
+
+ def BuildHooksEnv(self):
+ """Build hooks env.
+
+ """
+ env = {
+ "NETWORK_NAME": self.op.network_name,
+ "NETWORK_SUBNET": self.op.network,
+ "NETWORK_GATEWAY": self.op.gateway,
+ "NETWORK_SUBNET6": self.op.network6,
+ "NETWORK_GATEWAY6": self.op.gateway6,
+ "NETWORK_MAC_PREFIX": self.op.mac_prefix,
+ "NETWORK_TYPE": self.op.network_type,
+ }
+ return env
+
+ def Exec(self, feedback_fn):
+ """Add the ip pool to the cluster.
+
+ """
+ nobj = objects.Network(name=self.op.network_name,
+ network=self.op.network,
+ gateway=self.op.gateway,
+ network6=self.op.network6,
+ gateway6=self.op.gateway6,
+ mac_prefix=self.op.mac_prefix,
+ network_type=self.op.network_type,
+ uuid=self.network_uuid,
+ family=4)
+ # Initialize the associated address pool
+ try:
+ pool = network.AddressPool.InitializeNetwork(nobj)
+ except errors.AddressPoolError, 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
+ # they wouldn't function anyway.
+ for node in self.cfg.GetAllNodesInfo().values():
+ for ip in [node.primary_ip, node.secondary_ip]:
+ try:
+ pool.Reserve(ip)
+ self.LogInfo("Reserved node %s's IP (%s)", node.name, ip)
+
+ except errors.AddressPoolError:
+ pass
+
+ master_ip = self.cfg.GetClusterInfo().master_ip
+ try:
+ pool.Reserve(master_ip)
+ self.LogInfo("Reserved cluster master IP (%s)", master_ip)
+ except errors.AddressPoolError:
+ pass
+
+ if self.op.add_reserved_ips:
+ for ip in self.op.add_reserved_ips:
+ try:
+ pool.Reserve(ip, external=True)
+ except errors.AddressPoolError, e:
+ raise errors.OpExecError("Cannot reserve IP %s. %s " % (ip, e))
+
+ self.cfg.AddNetwork(nobj, self.proc.GetECId(), check_uuid=False)
+ del self.remove_locks[locking.LEVEL_NETWORK]
+
+
+class LUNetworkRemove(LogicalUnit):
+ HPATH = "network-remove"
+ HTYPE = constants.HTYPE_NETWORK
+ REQ_BGL = False
+
+ def ExpandNames(self):
+ self.network_uuid = self.cfg.LookupNetwork(self.op.network_name)
+
+ self.needed_locks = {
+ locking.LEVEL_NETWORK: [self.network_uuid],
+ }
+
+
+ def CheckPrereq(self):
+ """Check prerequisites.
+
+ This checks that the given network name exists as a network, that is
+ empty (i.e., contains no nodes), and that is not the last group of the
+ cluster.
+
+ """
+ if not self.network_uuid:
+ raise errors.OpPrereqError("Network %s not found" % self.op.network_name,
+ errors.ECODE_INVAL)
+
+ # Verify that the network is not conncted.
+ node_groups = [group.name
+ for group in self.cfg.GetAllNodeGroupsInfo().values()
+ for network in group.networks.keys()
+ if network == self.network_uuid]
+
+ 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)
+
+ def BuildHooksEnv(self):
+ """Build hooks env.
+
+ """
+ return {
+ "NETWORK_NAME": self.op.network_name,
+ }
+
+ def BuildHooksNodes(self):
+ """Build hooks nodes.
+
+ """
+ mn = self.cfg.GetMasterNode()
+ return ([mn], [mn])
+
+ def Exec(self, feedback_fn):
+ """Remove the network.
+
+ """
+ try:
+ self.cfg.RemoveNetwork(self.network_uuid)
+ except errors.ConfigurationError:
+ raise errors.OpExecError("Network '%s' with UUID %s disappeared" %
+ (self.op.network_name, self.network_uuid))
+
+
+class LUNetworkSetParams(LogicalUnit):
+ """Modifies the parameters of a network.
+
+ """
+ HPATH = "network-modify"
+ HTYPE = constants.HTYPE_NETWORK
+ REQ_BGL = False
+
+ def CheckArguments(self):
+ if (self.op.gateway and
+ (self.op.add_reserved_ips or self.op.remove_reserved_ips)):
+ raise errors.OpPrereqError("Cannot modify gateway and reserved ips"
+ " at once", errors.ECODE_INVAL)
+
+
+ def ExpandNames(self):
+ self.network_uuid = self.cfg.LookupNetwork(self.op.network_name)
+ self.network = self.cfg.GetNetwork(self.network_uuid)
+ self.needed_locks = {
+ locking.LEVEL_NETWORK: [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)
+
+ def CheckPrereq(self):
+ """Check prerequisites.
+
+ """
+ self.gateway = self.network.gateway
+ self.network_type = self.network.network_type
+ self.mac_prefix = self.network.mac_prefix
+ self.network6 = self.network.network6
+ self.gateway6 = self.network.gateway6
+
+ self.pool = network.AddressPool(self.network)
+
+ if self.op.gateway:
+ if self.op.gateway == constants.VALUE_NONE:
+ self.gateway = None
+ else:
+ self.gateway = self.op.gateway
+ if self.pool.IsReserved(self.gateway):
+ raise errors.OpPrereqError("%s is already reserved" %
+ self.gateway, errors.ECODE_INVAL)
+
+ if self.op.network_type:
+ if self.op.network_type == constants.VALUE_NONE:
+ self.network_type = None
+ else:
+ self.network_type = self.op.network_type
+
+ if self.op.mac_prefix:
+ if self.op.mac_prefix == constants.VALUE_NONE:
+ self.mac_prefix = None
+ else:
+ self.mac_prefix = self.op.mac_prefix
+
+ if self.op.gateway6:
+ if self.op.gateway6 == constants.VALUE_NONE:
+ self.gateway6 = None
+ else:
+ self.gateway6 = self.op.gateway6
+
+ if self.op.network6:
+ if self.op.network6 == constants.VALUE_NONE:
+ self.network6 = None
+ else:
+ self.network6 = self.op.network6
+
+
+
+ def BuildHooksEnv(self):
+ """Build hooks env.
+
+ """
+ env = {
+ "NETWORK_NAME": self.op.network_name,
+ "NETWORK_SUBNET": self.network.network,
+ "NETWORK_GATEWAY": self.gateway,
+ "NETWORK_SUBNET6": self.network6,
+ "NETWORK_GATEWAY6": self.gateway6,
+ "NETWORK_MAC_PREFIX": self.mac_prefix,
+ "NETWORK_TYPE": self.network_type,
+ }
+ return env
+
+ def BuildHooksNodes(self):
+ """Build hooks nodes.
+
+ """
+ mn = self.cfg.GetMasterNode()
+ return ([mn], [mn])
+
+ def Exec(self, feedback_fn):
+ """Modifies the network.
+
+ """
+ #TODO: reserve/release via temporary reservation manager
+ # extend cfg.ReserveIp/ReleaseIp with the external flag
+ if self.op.gateway:
+ if self.gateway == self.network.gateway:
+ self.LogWarning("Gateway is already %s" % self.gateway)
+ else:
+ if self.gateway:
+ self.pool.Reserve(self.gateway, external=True)
+ if self.network.gateway:
+ self.pool.Release(self.network.gateway, external=True)
+ self.network.gateway = self.gateway
+
+ if self.op.add_reserved_ips:
+ for ip in self.op.add_reserved_ips:
+ try:
+ if self.pool.IsReserved(ip):
+ self.LogWarning("IP %s is already reserved" % ip)
+ else:
+ self.pool.Reserve(ip, external=True)
+ except errors.AddressPoolError, e:
+ self.LogWarning("Cannot reserve ip %s. %s" % (ip, e))
+
+ if self.op.remove_reserved_ips:
+ for ip in self.op.remove_reserved_ips:
+ if ip == self.network.gateway:
+ self.LogWarning("Cannot unreserve Gateway's IP")
+ continue
+ try:
+ if not self.pool.IsReserved(ip):
+ self.LogWarning("IP %s is already unreserved" % ip)
+ else:
+ self.pool.Release(ip, external=True)
+ except errors.AddressPoolError, e:
+ self.LogWarning("Cannot release ip %s. %s" % (ip, e))
+
+ if self.op.mac_prefix:
+ self.network.mac_prefix = self.mac_prefix
+
+ if self.op.network6:
+ self.network.network6 = self.network6
+
+ if self.op.gateway6:
+ self.network.gateway6 = self.gateway6
+
+ if self.op.network_type:
+ self.network.network_type = self.network_type
+
+ self.pool.Validate()
+
+ self.cfg.Update(self.network, feedback_fn)
+
+
+class _NetworkQuery(_QueryBase):
+ FIELDS = query.NETWORK_FIELDS
+
+ def ExpandNames(self, lu):
+ lu.needed_locks = {}
+
+ self._all_networks = lu.cfg.GetAllNetworksInfo()
+ name_to_uuid = dict((n.name, n.uuid) for n in self._all_networks.values())
+
+ if not self.names:
+ self.wanted = [name_to_uuid[name]
+ for name in utils.NiceSort(name_to_uuid.keys())]
+ else:
+ # Accept names to be either names or UUIDs.
+ missing = []
+ self.wanted = []
+ all_uuid = frozenset(self._all_networks.keys())
+
+ for name in self.names:
+ if name in all_uuid:
+ self.wanted.append(name)
+ elif name in name_to_uuid:
+ self.wanted.append(name_to_uuid[name])
+ else:
+ missing.append(name)
+
+ if missing:
+ raise errors.OpPrereqError("Some networks do not exist: %s" % missing,
+ errors.ECODE_NOENT)
+
+ def DeclareLocks(self, lu, level):
+ pass
+
+ def _GetQueryData(self, lu):
+ """Computes the list of networks and their attributes.
+
+ """
+ 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
+ cluster = lu.cfg.GetClusterInfo()
+
+ network_to_groups = None
+ network_to_instances = None
+ stats = None
+
+ # For NETQ_GROUP, we need to map network->[groups]
+ if do_groups:
+ all_groups = lu.cfg.GetAllNodeGroupsInfo()
+ network_to_groups = dict((uuid, []) for uuid in self.wanted)
+ default_nicpp = cluster.nicparams[constants.PP_DEFAULT]
+
+ if do_instances:
+ all_instances = lu.cfg.GetAllInstancesInfo()
+ all_nodes = lu.cfg.GetAllNodesInfo()
+ network_to_instances = dict((uuid, []) for uuid in self.wanted)
+
+
+ for group in all_groups.values():
+ if do_instances:
+ group_nodes = [node.name for node in all_nodes.values() if
+ node.group == group.uuid]
+ 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 + ')'
+ 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": ", ".join(pool.GetExternalReservations()),
+ }
+
+ return query.NetworkQueryData([self._all_networks[uuid]
+ for uuid in self.wanted],
+ network_to_groups,
+ network_to_instances,
+ stats)
+
+
+class LUNetworkQuery(NoHooksLU):
+ """Logical unit for querying networks.
+
+ """
+ REQ_BGL = False
+
+ def CheckArguments(self):
+ self.nq = _NetworkQuery(qlang.MakeSimpleFilter("name", self.op.names),
+ self.op.output_fields, False)
+
+ def ExpandNames(self):
+ self.nq.ExpandNames(self)
+
+ def Exec(self, feedback_fn):
+ return self.nq.OldStyleQuery(self)
+
+
+
+class LUNetworkConnect(LogicalUnit):
+ """Connect a network to a nodegroup
+
+ """
+ HPATH = "network-connect"
+ HTYPE = constants.HTYPE_NETWORK
+ REQ_BGL = False
+
+ def ExpandNames(self):
+ self.network_name = self.op.network_name
+ self.group_name = self.op.group_name
+ self.network_mode = self.op.network_mode
+ self.network_link = self.op.network_link
+
+ self.network_uuid = self.cfg.LookupNetwork(self.network_name)
+ self.network = self.cfg.GetNetwork(self.network_uuid)
+ self.group_uuid = self.cfg.LookupNodeGroup(self.group_name)
+ self.group = self.cfg.GetNodeGroup(self.group_uuid)
+
+ self.needed_locks = {
+ locking.LEVEL_INSTANCE: [],
+ locking.LEVEL_NODEGROUP: [self.group_uuid],
+ }
+ self.share_locks[locking.LEVEL_INSTANCE] = 1
+
+ def DeclareLocks(self, level):
+ if level == locking.LEVEL_INSTANCE:
+ assert not self.needed_locks[locking.LEVEL_INSTANCE]
+
+ # Lock instances optimistically, needs verification once group lock has
+ # been acquired
+ self.needed_locks[locking.LEVEL_INSTANCE] = \
+ self.cfg.GetNodeGroupInstances(self.group_uuid)
+
+ def BuildHooksEnv(self):
+ ret = dict()
+ ret["GROUP_NAME"] = self.group_name
+ ret["GROUP_NETWORK_NAME"] = self.network_name
+ ret["GROUP_NETWORK_MODE"] = self.network_mode
+ ret["GROUP_NETWORK_LINK"] = self.network_link
+ return ret
+
+ def BuildHooksNodes(self):
+ nodes = self.cfg.GetNodeGroup(self.group_uuid).members
+ return (nodes, nodes)
+
+
+ def CheckPrereq(self):
+ l = lambda value: ", ".join("%s: %s/%s" % (i[0], i[1], i[2])
+ for i in value)
+
+ if self.network is None:
+ raise errors.OpPrereqError("Network %s does not exist" %
+ self.network_name, errors.ECODE_INVAL)
+
+ self.netparams = dict()
+ self.netparams[constants.NIC_MODE] = self.network_mode
+ self.netparams[constants.NIC_LINK] = self.network_link
+ objects.NIC.CheckParameterSyntax(self.netparams)
+
+ #if self.network_mode == constants.NIC_MODE_BRIDGED:
+ # _CheckNodeGroupBridgesExist(self, self.network_link, self.group_uuid)
+ self.connected = False
+ if self.network_uuid in self.group.networks:
+ self.LogWarning("Network '%s' is already mapped to group '%s'" %
+ (self.network_name, self.group.name))
+ self.connected = True
+ return
+
+ pool = network.AddressPool(self.network)
+ if self.op.conflicts_check:
+ groupinstances = []
+ for n in self.cfg.GetNodeGroupInstances(self.group_uuid):
+ groupinstances.append(self.cfg.GetInstanceInfo(n))
+ instances = [(instance.name, idx, nic.ip)
+ for instance in groupinstances
+ for idx, nic in enumerate(instance.nics)
+ if (not nic.network and pool._Contains(nic.ip))]
+ if 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(instances)))
+ raise errors.OpPrereqError("Conflicting IPs found."
+ " Please remove/modify"
+ " corresponding NICs",
+ errors.ECODE_INVAL)
+
+ def Exec(self, feedback_fn):
+ if self.connected:
+ return
+
+ self.group.networks[self.network_uuid] = self.netparams
+ self.cfg.Update(self.group, feedback_fn)
+
+
+class LUNetworkDisconnect(LogicalUnit):
+ """Disconnect a network to a nodegroup
+
+ """
+ HPATH = "network-disconnect"
+ HTYPE = constants.HTYPE_NETWORK
+ REQ_BGL = False
+
+ def ExpandNames(self):
+ self.network_name = self.op.network_name
+ self.group_name = self.op.group_name
+
+ self.network_uuid = self.cfg.LookupNetwork(self.network_name)
+ self.network = self.cfg.GetNetwork(self.network_uuid)
+ self.group_uuid = self.cfg.LookupNodeGroup(self.group_name)
+ self.group = self.cfg.GetNodeGroup(self.group_uuid)
+
+ self.needed_locks = {
+ locking.LEVEL_INSTANCE: [],
+ locking.LEVEL_NODEGROUP: [self.group_uuid],
+ }
+ self.share_locks[locking.LEVEL_INSTANCE] = 1
+
+ def DeclareLocks(self, level):
+ if level == locking.LEVEL_INSTANCE:
+ assert not self.needed_locks[locking.LEVEL_INSTANCE]
+
+ # Lock instances optimistically, needs verification once group lock has
+ # been acquired
+ self.needed_locks[locking.LEVEL_INSTANCE] = \
+ self.cfg.GetNodeGroupInstances(self.group_uuid)
+
+ def BuildHooksEnv(self):
+ ret = dict()
+ ret["GROUP_NAME"] = self.group_name
+ ret["GROUP_NETWORK_NAME"] = self.network_name
+ return ret
+
+ def BuildHooksNodes(self):
+ nodes = self.cfg.GetNodeGroup(self.group_uuid).members
+ return (nodes, nodes)
+
+
+ def CheckPrereq(self):
+ l = lambda value: ", ".join("%s: %s/%s" % (i[0], i[1], i[2])
+ for i in value)
+
+ self.connected = True
+ if self.network_uuid not in self.group.networks:
+ self.LogWarning("Network '%s' is"
+ " not mapped to group '%s'" %
+ (self.network_name, self.group.name))
+ self.connected = False
+ return
+
+ if self.op.conflicts_check:
+ groupinstances = []
+ for n in self.cfg.GetNodeGroupInstances(self.group_uuid):
+ groupinstances.append(self.cfg.GetInstanceInfo(n))
+ instances = [(instance.name, idx, nic.ip)
+ for instance in groupinstances
+ for idx, nic in enumerate(instance.nics)
+ if nic.network == self.network_name]
+ if 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(instances)))
+ raise errors.OpPrereqError("Conflicting IPs."
+ " Please remove/modify"
+ " corresponding NICS",
+ errors.ECODE_INVAL)
+
+ def Exec(self, feedback_fn):
+ if not self.connected:
+ return
+
+ del self.group.networks[self.network_uuid]
+ self.cfg.Update(self.group, feedback_fn)
+
#: Query type implementations
_QUERY_IMPL = {
+ constants.QR_CLUSTER: _ClusterQuery,
constants.QR_INSTANCE: _InstanceQuery,
constants.QR_NODE: _NodeQuery,
constants.QR_GROUP: _GroupQuery,
+ constants.QR_NETWORK: _NetworkQuery,
constants.QR_OS: _OsQuery,
+ constants.QR_EXPORT: _ExportQuery,
}
assert set(_QUERY_IMPL.keys()) == constants.QR_VIA_OP
except KeyError:
raise errors.OpPrereqError("Unknown query resource '%s'" % name,
errors.ECODE_INVAL)
+
+def _CheckForConflictingIp(lu, ip, node):
+ """In case of conflicting ip raise error.
+
+ @type ip: string
+ @param ip: ip address
+ @type node: string
+ @param node: node name
+
+ """
+ (conf_net, conf_netparams) = 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)
+
+ return (None, None)