wanted.append(instance)
else:
- wanted = lu.cfg.GetInstanceList()
- return utils.NiceSort(wanted)
+ wanted = utils.NiceSort(lu.cfg.GetInstanceList())
+ return wanted
def _CheckOutputFields(static, dynamic, selected):
% ",".join(delta))
+def _CheckBooleanOpField(op, name):
+ """Validates boolean opcode parameters.
+
+ This will ensure that an opcode parameter is either a boolean value,
+ or None (but that it always exists).
+
+ """
+ val = getattr(op, name, None)
+ if not (val is None or isinstance(val, bool)):
+ raise errors.OpPrereqError("Invalid boolean parameter '%s' (%s)" %
+ (name, str(val)))
+ setattr(op, name, val)
+
+
+def _CheckNodeOnline(lu, node):
+ """Ensure that a given node is online.
+
+ @param lu: the LU on behalf of which we make the check
+ @param node: the node to check
+ @raise errors.OpPrereqError: if the nodes is offline
+
+ """
+ if lu.cfg.GetNodeInfo(node).offline:
+ raise errors.OpPrereqError("Can't use offline node %s" % node)
+
+
def _BuildInstanceHookEnv(name, primary_node, secondary_nodes, os_type, status,
memory, vcpus, nics):
"""Builds instance related env variables for hooks
@param secondary_nodes: list of secondary nodes as strings
@type os_type: string
@param os_type: the name of the instance's OS
- @type status: string
- @param status: the desired status of the instances
+ @type status: boolean
+ @param status: the should_run status of the instance
@type memory: string
@param memory: the memory size of the instance
@type vcpus: string
@return: the hook environment for this instance
"""
+ if status:
+ str_status = "up"
+ else:
+ str_status = "down"
env = {
"OP_TARGET": name,
"INSTANCE_NAME": name,
"INSTANCE_PRIMARY": primary_node,
"INSTANCE_SECONDARIES": " ".join(secondary_nodes),
"INSTANCE_OS_TYPE": os_type,
- "INSTANCE_STATUS": status,
+ "INSTANCE_STATUS": str_status,
"INSTANCE_MEMORY": memory,
"INSTANCE_VCPUS": vcpus,
}
'primary_node': instance.primary_node,
'secondary_nodes': instance.secondary_nodes,
'os_type': instance.os,
- 'status': instance.os,
+ 'status': instance.admin_up,
'memory': bep[constants.BE_MEMORY],
'vcpus': bep[constants.BE_VCPUS],
'nics': [(nic.ip, nic.bridge, nic.mac) for nic in instance.nics],
return _BuildInstanceHookEnv(**args)
+def _AdjustCandidatePool(lu):
+ """Adjust the candidate pool after node operations.
+
+ """
+ mod_list = lu.cfg.MaintainCandidatePool()
+ if mod_list:
+ lu.LogInfo("Promoted nodes to master candidate role: %s",
+ ", ".join(node.name for node in mod_list))
+ for name in mod_list:
+ lu.context.ReaddNode(name)
+ mc_now, mc_max = lu.cfg.GetMasterCandidateStats()
+ if mc_now > mc_max:
+ lu.LogInfo("Note: more nodes are candidates (%d) than desired (%d)" %
+ (mc_now, mc_max))
+
+
def _CheckInstanceBridgesExist(lu, instance):
"""Check that the brigdes needed by an instance exist.
self.share_locks = dict(((i, 1) for i in locking.LEVELS))
def _VerifyNode(self, nodeinfo, file_list, local_cksum,
- node_result, feedback_fn, master_files):
+ node_result, feedback_fn, master_files,
+ drbd_map):
"""Run multiple tests against a node.
Test list:
@param node_result: the results from the node
@param feedback_fn: function used to accumulate results
@param master_files: list of files that only masters should have
+ @param drbd_map: the useddrbd minors for this node, in
+ form of minor: (instance, must_exist) which correspond to instances
+ and their running status
"""
node = nodeinfo.name
# compares ganeti version
local_version = constants.PROTOCOL_VERSION
remote_version = node_result.get('version', None)
- if not remote_version:
+ if not (remote_version and isinstance(remote_version, (list, tuple)) and
+ len(remote_version) == 2):
feedback_fn(" - ERROR: connection to %s failed" % (node))
return True
- if local_version != remote_version:
- feedback_fn(" - ERROR: sw version mismatch: master %s, node(%s) %s" %
- (local_version, node, remote_version))
+ if local_version != remote_version[0]:
+ feedback_fn(" - ERROR: incompatible protocol versions: master %s,"
+ " node %s %s" % (local_version, node, remote_version[0]))
return True
- # checks vg existance and size > 20G
+ # node seems compatible, we can actually try to look into its results
bad = False
+
+ # full package version
+ if constants.RELEASE_VERSION != remote_version[1]:
+ feedback_fn(" - WARNING: software version mismatch: master %s,"
+ " node %s %s" %
+ (constants.RELEASE_VERSION, node, remote_version[1]))
+
+ # checks vg existence and size > 20G
+
vglist = node_result.get(constants.NV_VGLIST, None)
if not vglist:
feedback_fn(" - ERROR: unable to check volume groups on node %s." %
if hv_result is not None:
feedback_fn(" - ERROR: hypervisor %s verify failure: '%s'" %
(hv_name, hv_result))
+
+ # check used drbd list
+ used_minors = node_result.get(constants.NV_DRBDLIST, [])
+ for minor, (iname, must_exist) in drbd_map.items():
+ if minor not in used_minors and must_exist:
+ feedback_fn(" - ERROR: drbd minor %d of instance %s is not active" %
+ (minor, iname))
+ bad = True
+ for minor in used_minors:
+ if minor not in drbd_map:
+ feedback_fn(" - ERROR: unallocated drbd minor %d is in use" % minor)
+ bad = True
+
return bad
def _VerifyInstance(self, instance, instanceconfig, node_vol_is,
- node_instance, feedback_fn):
+ node_instance, feedback_fn, n_offline):
"""Verify an instance.
This function checks to see if the required block devices are
instanceconfig.MapLVsByNode(node_vol_should)
for node in node_vol_should:
+ if node in n_offline:
+ # ignore missing volumes on offline nodes
+ continue
for volume in node_vol_should[node]:
if node not in node_vol_is or volume not in node_vol_is[node]:
feedback_fn(" - ERROR: volume %s missing on node %s" %
(volume, node))
bad = True
- if not instanceconfig.status == 'down':
- if (node_current not in node_instance or
- not instance in node_instance[node_current]):
+ if instanceconfig.admin_up:
+ if ((node_current not in node_instance or
+ not instance in node_instance[node_current]) and
+ node_current not in n_offline):
feedback_fn(" - ERROR: instance %s not running on node %s" %
(instance, node_current))
bad = True
nodelist = utils.NiceSort(self.cfg.GetNodeList())
nodeinfo = [self.cfg.GetNodeInfo(nname) for nname in nodelist]
instancelist = utils.NiceSort(self.cfg.GetInstanceList())
+ instanceinfo = dict((iname, self.cfg.GetInstanceInfo(iname))
+ for iname in instancelist)
i_non_redundant = [] # Non redundant instances
i_non_a_balanced = [] # Non auto-balanced instances
+ n_offline = [] # List of offline nodes
node_volume = {}
node_instance = {}
node_info = {}
file_names = ssconf.SimpleStore().GetFileList()
file_names.append(constants.SSL_CERT_FILE)
+ file_names.append(constants.RAPI_CERT_FILE)
file_names.extend(master_files)
local_checksums = utils.FingerprintFiles(file_names)
feedback_fn("* Gathering data (%d nodes)" % len(nodelist))
node_verify_param = {
constants.NV_FILELIST: file_names,
- constants.NV_NODELIST: nodelist,
+ constants.NV_NODELIST: [node.name for node in nodeinfo
+ if not node.offline],
constants.NV_HYPERVISOR: hypervisors,
constants.NV_NODENETTEST: [(node.name, node.primary_ip,
- node.secondary_ip) for node in nodeinfo],
+ node.secondary_ip) for node in nodeinfo
+ if not node.offline],
constants.NV_LVLIST: vg_name,
constants.NV_INSTANCELIST: hypervisors,
constants.NV_VGLIST: None,
constants.NV_VERSION: None,
constants.NV_HVINFO: self.cfg.GetHypervisorType(),
+ constants.NV_DRBDLIST: None,
}
all_nvinfo = self.rpc.call_node_verify(nodelist, node_verify_param,
self.cfg.GetClusterName())
cluster = self.cfg.GetClusterInfo()
master_node = self.cfg.GetMasterNode()
+ all_drbd_map = self.cfg.ComputeDRBDMap()
+
for node_i in nodeinfo:
node = node_i.name
nresult = all_nvinfo[node].data
+ if node_i.offline:
+ feedback_fn("* Skipping offline node %s" % (node,))
+ n_offline.append(node)
+ continue
+
if node == master_node:
ntype = "master"
elif node_i.master_candidate:
bad = True
continue
+ node_drbd = {}
+ for minor, instance in all_drbd_map[node].items():
+ instance = instanceinfo[instance]
+ node_drbd[minor] = (instance.name, instance.admin_up)
result = self._VerifyNode(node_i, file_names, local_checksums,
- nresult, feedback_fn, master_files)
+ nresult, feedback_fn, master_files,
+ node_drbd)
bad = bad or result
lvdata = nresult.get(constants.NV_LVLIST, "Missing LV data")
for instance in instancelist:
feedback_fn("* Verifying instance %s" % instance)
- inst_config = self.cfg.GetInstanceInfo(instance)
+ inst_config = instanceinfo[instance]
result = self._VerifyInstance(instance, inst_config, node_volume,
- node_instance, feedback_fn)
+ node_instance, feedback_fn, n_offline)
bad = bad or result
+ inst_nodes_offline = []
inst_config.MapLVsByNode(node_vol_should)
pnode = inst_config.primary_node
if pnode in node_info:
node_info[pnode]['pinst'].append(instance)
- else:
+ elif pnode not in n_offline:
feedback_fn(" - ERROR: instance %s, connection to primary node"
" %s failed" % (instance, pnode))
bad = True
+ if pnode in n_offline:
+ inst_nodes_offline.append(pnode)
+
# If the instance is non-redundant we cannot survive losing its primary
# node, so we are not N+1 compliant. On the other hand we have no disk
# templates with more than one secondary so that situation is not well
if pnode not in node_info[snode]['sinst-by-pnode']:
node_info[snode]['sinst-by-pnode'][pnode] = []
node_info[snode]['sinst-by-pnode'][pnode].append(instance)
- else:
+ elif snode not in n_offline:
feedback_fn(" - ERROR: instance %s, connection to secondary node"
" %s failed" % (instance, snode))
+ bad = True
+ if snode in n_offline:
+ inst_nodes_offline.append(snode)
+
+ if inst_nodes_offline:
+ # warn that the instance lives on offline nodes, and set bad=True
+ feedback_fn(" - ERROR: instance lives on offline node(s) %s" %
+ ", ".join(inst_nodes_offline))
+ bad = True
feedback_fn("* Verifying orphan volumes")
result = self._VerifyOrphanVolumes(node_vol_should, node_volume,
feedback_fn(" - NOTICE: %d non-auto-balanced instance(s) found."
% len(i_non_a_balanced))
+ if n_offline:
+ feedback_fn(" - NOTICE: %d offline node(s) found." % len(n_offline))
+
return not bad
def HooksCallBack(self, phase, hooks_results, feedback_fn, lu_result):
show_node_header = True
res = hooks_results[node_name]
if res.failed or res.data is False or not isinstance(res.data, list):
+ if res.offline:
+ # no need to warn or set fail return value
+ continue
feedback_fn(" Communication failure in hooks execution")
lu_result = 1
continue
nv_dict = {}
for inst in instances:
inst_lvs = {}
- if (inst.status != "up" or
+ if (not inst.admin_up or
inst.disk_template not in constants.DTS_NET_MIRROR):
continue
inst.MapLVsByNode(inst_lvs)
# node_volume
lvs = node_lvs[node]
if lvs.failed:
- self.LogWarning("Connection to node %s failed: %s" %
- (node, lvs.data))
+ if not lvs.offline:
+ self.LogWarning("Connection to node %s failed: %s" %
+ (node, lvs.data))
continue
lvs = lvs.data
if isinstance(lvs, basestring):
constants.SSH_KNOWN_HOSTS_FILE)
for to_node, to_result in result.iteritems():
if to_result.failed or not to_result.data:
- logging.error("Copy of file %s to node %s failed", fname, to_node)
+ logging.error("Copy of file %s to node %s failed",
+ constants.SSH_KNOWN_HOSTS_FILE, to_node)
finally:
result = self.rpc.call_node_start_master(master, False)
# we want to update nodes after the cluster so that if any errors
# happen, we have recorded and saved the cluster info
if self.op.candidate_pool_size is not None:
- node_info = self.cfg.GetAllNodesInfo().values()
- num_candidates = len([node for node in node_info
- if node.master_candidate])
- num_nodes = len(node_info)
- if num_candidates < self.op.candidate_pool_size:
- random.shuffle(node_info)
- for node in node_info:
- if num_candidates >= self.op.candidate_pool_size:
- break
- if node.master_candidate:
- continue
- node.master_candidate = True
- self.LogInfo("Promoting node %s to master candidate", node.name)
- self.cfg.Update(node)
- self.context.ReaddNode(node)
- num_candidates += 1
- elif num_candidates > self.op.candidate_pool_size:
- self.LogInfo("Note: more nodes are candidates (%d) than the new value"
- " of candidate_pool_size (%d)" %
- (num_candidates, self.op.candidate_pool_size))
+ _AdjustCandidatePool(self)
+
+
+class LURedistributeConfig(NoHooksLU):
+ """Force the redistribution of cluster configuration.
+
+ This is a very simple LU.
+
+ """
+ _OP_REQP = []
+ REQ_BGL = False
+
+ def ExpandNames(self):
+ self.needed_locks = {
+ locking.LEVEL_NODE: locking.ALL_SET,
+ }
+ self.share_locks[locking.LEVEL_NODE] = 1
+
+ def CheckPrereq(self):
+ """Check prerequisites.
+
+ """
+
+ def Exec(self, feedback_fn):
+ """Redistribute the configuration.
+
+ """
+ self.cfg.Update(self.cfg.GetClusterInfo())
def _WaitForSync(lu, instance, oneshot=False, unlock=False):
continue
rstats = rstats.data
retries = 0
- for i in range(len(rstats)):
- mstat = rstats[i]
+ for i, mstat in enumerate(rstats):
if mstat is None:
lu.LogWarning("Can't compute data for node %s/%s",
node, instance.disks[i].iv_name)
"""
node_list = self.acquired_locks[locking.LEVEL_NODE]
- node_data = self.rpc.call_os_diagnose(node_list)
+ valid_nodes = [node for node in self.cfg.GetOnlineNodeList()
+ if node in node_list]
+ node_data = self.rpc.call_os_diagnose(valid_nodes)
if node_data == False:
raise errors.OpExecError("Can't gather the list of OSes")
- pol = self._DiagnoseByOS(node_list, node_data)
+ pol = self._DiagnoseByOS(valid_nodes, node_data)
output = []
for os_name, os_data in pol.iteritems():
row = []
for instance_name in instance_list:
instance = self.cfg.GetInstanceInfo(instance_name)
- if node.name == instance.primary_node:
- raise errors.OpPrereqError("Instance %s still running on the node,"
- " please remove first." % instance_name)
- if node.name in instance.secondary_nodes:
- raise errors.OpPrereqError("Instance %s has node as a secondary,"
+ if node.name in instance.all_nodes:
+ raise errors.OpPrereqError("Instance %s is still running on the node,"
" please remove first." % instance_name)
self.op.node_name = node.name
self.node = node
self.rpc.call_node_leave_cluster(node.name)
# Promote nodes to master candidate as needed
- cp_size = self.cfg.GetClusterInfo().candidate_pool_size
- node_info = self.cfg.GetAllNodesInfo().values()
- num_candidates = len([n for n in node_info
- if n.master_candidate])
- num_nodes = len(node_info)
- random.shuffle(node_info)
- for node in node_info:
- if num_candidates >= cp_size or num_candidates >= num_nodes:
- break
- if node.master_candidate:
- continue
- node.master_candidate = True
- self.LogInfo("Promoting node %s to master candidate", node.name)
- self.cfg.Update(node)
- self.context.ReaddNode(node)
- num_candidates += 1
+ _AdjustCandidatePool(self)
class LUQueryNodes(NoHooksLU):
" based ping to noded port")
cp_size = self.cfg.GetClusterInfo().candidate_pool_size
- node_info = self.cfg.GetAllNodesInfo().values()
- num_candidates = len([n for n in node_info
- if n.master_candidate])
- master_candidate = num_candidates < cp_size
+ mc_now, _ = self.cfg.GetMasterCandidateStats()
+ master_candidate = mc_now < cp_size
self.new_node = objects.Node(name=node,
primary_ip=primary_ip,
logging.error("Copy of file %s to node %s failed", fname, to_node)
to_copy = []
- if constants.HT_XEN_HVM in self.cfg.GetClusterInfo().enabled_hypervisors:
+ enabled_hypervisors = self.cfg.GetClusterInfo().enabled_hypervisors
+ if constants.HTS_USE_VNC.intersection(enabled_hypervisors):
to_copy.append(constants.VNC_PASSWORD_FILE)
+
for fname in to_copy:
result = self.rpc.call_upload_file([node], fname)
if result[node].failed or not result[node]:
if node_name is None:
raise errors.OpPrereqError("Invalid node name '%s'" % self.op.node_name)
self.op.node_name = node_name
- if not hasattr(self.op, 'master_candidate'):
+ _CheckBooleanOpField(self.op, 'master_candidate')
+ _CheckBooleanOpField(self.op, 'offline')
+ if self.op.master_candidate is None and self.op.offline is None:
raise errors.OpPrereqError("Please pass at least one modification")
- self.op.master_candidate = bool(self.op.master_candidate)
+ if self.op.offline == True and self.op.master_candidate == True:
+ raise errors.OpPrereqError("Can't set the node into offline and"
+ " master_candidate at the same time")
def ExpandNames(self):
self.needed_locks = {locking.LEVEL_NODE: self.op.node_name}
env = {
"OP_TARGET": self.op.node_name,
"MASTER_CANDIDATE": str(self.op.master_candidate),
+ "OFFLINE": str(self.op.offline),
}
nl = [self.cfg.GetMasterNode(),
self.op.node_name]
This only checks the instance list against the existing names.
"""
- force = self.force = self.op.force
+ node = self.node = self.cfg.GetNodeInfo(self.op.node_name)
- if self.op.master_candidate == False:
+ if ((self.op.master_candidate == False or self.op.offline == True)
+ and node.master_candidate):
+ # we will demote the node from master_candidate
if self.op.node_name == self.cfg.GetMasterNode():
raise errors.OpPrereqError("The master node has to be a"
- " master candidate")
+ " master candidate and online")
cp_size = self.cfg.GetClusterInfo().candidate_pool_size
- node_info = self.cfg.GetAllNodesInfo().values()
- num_candidates = len([node for node in node_info
- if node.master_candidate])
+ num_candidates, _ = self.cfg.GetMasterCandidateStats()
if num_candidates <= cp_size:
msg = ("Not enough master candidates (desired"
" %d, new value will be %d)" % (cp_size, num_candidates-1))
- if force:
+ if self.op.force:
self.LogWarning(msg)
else:
raise errors.OpPrereqError(msg)
+ if (self.op.master_candidate == True and node.offline and
+ not self.op.offline == False):
+ raise errors.OpPrereqError("Can't set an offline node to"
+ " master_candidate")
+
return
def Exec(self, feedback_fn):
"""Modifies a node.
"""
- node = self.cfg.GetNodeInfo(self.op.node_name)
+ node = self.node
result = []
+ if self.op.offline is not None:
+ node.offline = self.op.offline
+ result.append(("offline", str(self.op.offline)))
+ if self.op.offline == True and node.master_candidate:
+ node.master_candidate = False
+ result.append(("master_candidate", "auto-demotion due to offline"))
+
if self.op.master_candidate is not None:
node.master_candidate = self.op.master_candidate
result.append(("master_candidate", str(self.op.master_candidate)))
self.instance = self.cfg.GetInstanceInfo(self.op.instance_name)
assert self.instance is not None, \
"Cannot retrieve locked instance %s" % self.op.instance_name
+ _CheckNodeOnline(self, self.instance.primary_node)
def Exec(self, feedback_fn):
"""Activate the disks.
" (is_primary=True, pass=2)",
inst_disk.iv_name, node)
disks_ok = False
- device_info.append((instance.primary_node, inst_disk.iv_name, result))
+ device_info.append((instance.primary_node, inst_disk.iv_name, result.data))
# leave the disks configured for the primary node
# this is a workaround that would be fixed better by
return result
-def _CheckNodeFreeMemory(lu, node, reason, requested, hypervisor):
+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
@param reason: string to use in the error message
@type requested: C{int}
@param requested: the amount of memory in MiB to check for
- @type hypervisor: C{str}
- @param hypervisor: the hypervisor to ask for memory stats
+ @type hypervisor_name: C{str}
+ @param hypervisor_name: the hypervisor to ask for memory stats
@raise errors.OpPrereqError: if the node doesn't have enough memory, or
we cannot check the node
"""
- nodeinfo = lu.rpc.call_node_info([node], lu.cfg.GetVGName(), hypervisor)
+ nodeinfo = lu.rpc.call_node_info([node], lu.cfg.GetVGName(), hypervisor_name)
nodeinfo[node].Raise()
free_mem = nodeinfo[node].data.get('memory_free')
if not isinstance(free_mem, int):
"FORCE": self.op.force,
}
env.update(_BuildInstanceHookEnvByObject(self, self.instance))
- nl = ([self.cfg.GetMasterNode(), self.instance.primary_node] +
- list(self.instance.secondary_nodes))
+ nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes)
return env, nl, nl
def CheckPrereq(self):
assert self.instance is not None, \
"Cannot retrieve locked instance %s" % self.op.instance_name
+ _CheckNodeOnline(self, instance.primary_node)
+
bep = self.cfg.GetClusterInfo().FillBE(instance)
# check bridges existance
_CheckInstanceBridgesExist(self, instance)
_StartInstanceDisks(self, instance, force)
result = self.rpc.call_instance_start(node_current, instance, extra_args)
- if result.failed or not result.data:
+ msg = result.RemoteFailMsg()
+ if msg:
_ShutdownInstanceDisks(self, instance)
- raise errors.OpExecError("Could not start instance")
+ raise errors.OpExecError("Could not start instance: %s" % msg)
class LURebootInstance(LogicalUnit):
"IGNORE_SECONDARIES": self.op.ignore_secondaries,
}
env.update(_BuildInstanceHookEnvByObject(self, self.instance))
- nl = ([self.cfg.GetMasterNode(), self.instance.primary_node] +
- list(self.instance.secondary_nodes))
+ nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes)
return env, nl, nl
def CheckPrereq(self):
assert self.instance is not None, \
"Cannot retrieve locked instance %s" % self.op.instance_name
+ _CheckNodeOnline(self, instance.primary_node)
+
# check bridges existance
_CheckInstanceBridgesExist(self, instance)
_ShutdownInstanceDisks(self, instance)
_StartInstanceDisks(self, instance, ignore_secondaries)
result = self.rpc.call_instance_start(node_current, instance, extra_args)
- if result.failed or not result.data:
+ msg = result.RemoteFailMsg()
+ if msg:
_ShutdownInstanceDisks(self, instance)
- raise errors.OpExecError("Could not start instance for full reboot")
+ raise errors.OpExecError("Could not start instance for"
+ " full reboot: %s" % msg)
self.cfg.MarkInstanceUp(instance.name)
"""
env = _BuildInstanceHookEnvByObject(self, self.instance)
- nl = ([self.cfg.GetMasterNode(), self.instance.primary_node] +
- list(self.instance.secondary_nodes))
+ nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes)
return env, nl, nl
def CheckPrereq(self):
self.instance = self.cfg.GetInstanceInfo(self.op.instance_name)
assert self.instance is not None, \
"Cannot retrieve locked instance %s" % self.op.instance_name
+ _CheckNodeOnline(self, self.instance.primary_node)
def Exec(self, feedback_fn):
"""Shutdown the instance.
"""
env = _BuildInstanceHookEnvByObject(self, self.instance)
- nl = ([self.cfg.GetMasterNode(), self.instance.primary_node] +
- list(self.instance.secondary_nodes))
+ nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes)
return env, nl, nl
def CheckPrereq(self):
instance = self.cfg.GetInstanceInfo(self.op.instance_name)
assert instance is not None, \
"Cannot retrieve locked instance %s" % self.op.instance_name
+ _CheckNodeOnline(self, instance.primary_node)
if instance.disk_template == constants.DT_DISKLESS:
raise errors.OpPrereqError("Instance '%s' has no disks" %
self.op.instance_name)
- if instance.status != "down":
+ if instance.admin_up:
raise errors.OpPrereqError("Instance '%s' is marked to be up" %
self.op.instance_name)
remote_info = self.rpc.call_instance_info(instance.primary_node,
try:
feedback_fn("Running the instance OS create scripts...")
result = self.rpc.call_instance_os_add(inst.primary_node, inst)
- result.Raise()
- if not result.data:
+ msg = result.RemoteFailMsg()
+ if msg:
raise errors.OpExecError("Could not install OS for instance %s"
- " on node %s" %
- (inst.name, inst.primary_node))
+ " on node %s: %s" %
+ (inst.name, inst.primary_node, msg))
finally:
_ShutdownInstanceDisks(self, inst)
"""
env = _BuildInstanceHookEnvByObject(self, self.instance)
env["INSTANCE_NEW_NAME"] = self.op.new_name
- nl = ([self.cfg.GetMasterNode(), self.instance.primary_node] +
- list(self.instance.secondary_nodes))
+ nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes)
return env, nl, nl
def CheckPrereq(self):
if instance is None:
raise errors.OpPrereqError("Instance '%s' not known" %
self.op.instance_name)
- if instance.status != "down":
+ _CheckNodeOnline(self, instance.primary_node)
+
+ if instance.admin_up:
raise errors.OpPrereqError("Instance '%s' is marked to be up" %
self.op.instance_name)
remote_info = self.rpc.call_instance_info(instance.primary_node,
try:
result = self.rpc.call_instance_run_rename(inst.primary_node, inst,
old_name)
- if result.failed or not result.data:
+ msg = result.RemoteFailMsg()
+ if msg:
msg = ("Could not run OS rename script for instance %s on node %s"
- " (but the instance has been renamed in Ganeti)" %
- (inst.name, inst.primary_node))
+ " (but the instance has been renamed in Ganeti): %s" %
+ (inst.name, inst.primary_node, msg))
self.proc.LogWarning(msg)
finally:
_ShutdownInstanceDisks(self, inst)
"""
all_info = self.cfg.GetAllInstancesInfo()
- if self.do_locking:
- instance_names = self.acquired_locks[locking.LEVEL_INSTANCE]
- elif self.wanted != locking.ALL_SET:
- instance_names = self.wanted
- missing = set(instance_names).difference(all_info.keys())
- if missing:
- raise errors.OpExecError(
- "Some instances were removed before retrieving their data: %s"
- % missing)
+ if self.wanted == locking.ALL_SET:
+ # caller didn't specify instance names, so ordering is not important
+ if self.do_locking:
+ instance_names = self.acquired_locks[locking.LEVEL_INSTANCE]
+ else:
+ instance_names = all_info.keys()
+ instance_names = utils.NiceSort(instance_names)
else:
- instance_names = all_info.keys()
+ # caller did specify names, so we must keep the ordering
+ if self.do_locking:
+ tgt_set = self.acquired_locks[locking.LEVEL_INSTANCE]
+ else:
+ tgt_set = all_info.keys()
+ missing = set(self.wanted).difference(tgt_set)
+ if missing:
+ raise errors.OpExecError("Some instances were removed before"
+ " retrieving their data: %s" % missing)
+ instance_names = self.wanted
- instance_names = utils.NiceSort(instance_names)
instance_list = [all_info[iname] for iname in instance_names]
# begin data gathering
elif field == "snodes":
val = list(instance.secondary_nodes)
elif field == "admin_state":
- val = (instance.status != "down")
+ val = instance.admin_up
elif field == "oper_state":
if instance.primary_node in bad_nodes:
val = None
else:
running = bool(live_data.get(instance.name))
if running:
- if instance.status != "down":
+ if instance.admin_up:
val = "running"
else:
val = "ERROR_up"
else:
- if instance.status != "down":
+ if instance.admin_up:
val = "ERROR_down"
else:
val = "ADMIN_down"
"a mirrored disk template")
target_node = secondary_nodes[0]
+ _CheckNodeOnline(self, target_node)
# check memory requirements on the secondary node
_CheckNodeFreeMemory(self, target_node, "failing over instance %s" %
instance.name, bep[constants.BE_MEMORY],
for dev in instance.disks:
# for drbd, these are drbd over lvm
if not _CheckDiskConsistency(self, dev, target_node, False):
- if instance.status == "up" and not self.op.ignore_consistency:
+ if instance.admin_up and not self.op.ignore_consistency:
raise errors.OpExecError("Disk %s is degraded on target node,"
" aborting failover." % dev.iv_name)
self.cfg.Update(instance)
# Only start the instance if it's marked as up
- if instance.status == "up":
+ if instance.admin_up:
feedback_fn("* activating the instance's disks on target node")
logging.info("Starting instance %s on node %s",
instance.name, target_node)
feedback_fn("* starting the instance on the target node")
result = self.rpc.call_instance_start(target_node, instance, None)
- if result.failed or not result.data:
+ msg = result.RemoteFailMsg()
+ if msg:
_ShutdownInstanceDisks(self, instance)
- raise errors.OpExecError("Could not start instance %s on node %s." %
- (instance.name, target_node))
+ raise errors.OpExecError("Could not start instance %s on node %s: %s" %
+ (instance.name, target_node, msg))
-def _CreateBlockDevOnPrimary(lu, node, instance, device, info):
- """Create a tree of block devices on the primary node.
+class LUMigrateInstance(LogicalUnit):
+ """Migrate an instance.
- This always creates all devices.
+ This is migration without shutting down, compared to the failover,
+ which is done with shutdown.
"""
- if device.children:
- for child in device.children:
- if not _CreateBlockDevOnPrimary(lu, node, instance, child, info):
- return False
+ HPATH = "instance-migrate"
+ HTYPE = constants.HTYPE_INSTANCE
+ _OP_REQP = ["instance_name", "live", "cleanup"]
- lu.cfg.SetDiskID(device, node)
- new_id = lu.rpc.call_blockdev_create(node, device, device.size,
- instance.name, True, info)
- if new_id.failed or not new_id.data:
- return False
- if device.physical_id is None:
- device.physical_id = new_id
- return True
+ REQ_BGL = False
+ def ExpandNames(self):
+ self._ExpandAndLockInstance()
+ self.needed_locks[locking.LEVEL_NODE] = []
+ self.recalculate_locks[locking.LEVEL_NODE] = constants.LOCKS_REPLACE
+
+ def DeclareLocks(self, level):
+ if level == locking.LEVEL_NODE:
+ self._LockInstancesNodes()
-def _CreateBlockDevOnSecondary(lu, node, instance, device, force, info):
- """Create a tree of block devices on a secondary node.
+ def BuildHooksEnv(self):
+ """Build hooks env.
+
+ This runs on master, primary and secondary nodes of the instance.
+
+ """
+ env = _BuildInstanceHookEnvByObject(self, self.instance)
+ nl = [self.cfg.GetMasterNode()] + list(self.instance.secondary_nodes)
+ return env, nl, nl
+
+ def CheckPrereq(self):
+ """Check prerequisites.
+
+ This checks that the instance is in the cluster.
+
+ """
+ instance = self.cfg.GetInstanceInfo(
+ self.cfg.ExpandInstanceName(self.op.instance_name))
+ if instance is None:
+ raise errors.OpPrereqError("Instance '%s' not known" %
+ self.op.instance_name)
+
+ if instance.disk_template != constants.DT_DRBD8:
+ raise errors.OpPrereqError("Instance's disk layout is not"
+ " drbd8, cannot migrate.")
+
+ secondary_nodes = instance.secondary_nodes
+ if not secondary_nodes:
+ raise errors.ProgrammerError("no secondary node but using "
+ "drbd8 disk template")
+
+ i_be = self.cfg.GetClusterInfo().FillBE(instance)
+
+ target_node = secondary_nodes[0]
+ # check memory requirements on the secondary node
+ _CheckNodeFreeMemory(self, target_node, "migrating instance %s" %
+ instance.name, i_be[constants.BE_MEMORY],
+ instance.hypervisor)
+
+ # check bridge existance
+ brlist = [nic.bridge for nic in instance.nics]
+ result = self.rpc.call_bridges_exist(target_node, brlist)
+ if result.failed or not result.data:
+ raise errors.OpPrereqError("One or more target bridges %s does not"
+ " exist on destination node '%s'" %
+ (brlist, target_node))
+
+ if not self.op.cleanup:
+ result = self.rpc.call_instance_migratable(instance.primary_node,
+ instance)
+ msg = result.RemoteFailMsg()
+ if msg:
+ raise errors.OpPrereqError("Can't migrate: %s - please use failover" %
+ msg)
+
+ self.instance = instance
+
+ def _WaitUntilSync(self):
+ """Poll with custom rpc for disk sync.
+
+ This uses our own step-based rpc call.
+
+ """
+ self.feedback_fn("* wait until resync is done")
+ all_done = False
+ while not all_done:
+ all_done = True
+ result = self.rpc.call_drbd_wait_sync(self.all_nodes,
+ self.nodes_ip,
+ self.instance.disks)
+ min_percent = 100
+ for node, nres in result.items():
+ msg = nres.RemoteFailMsg()
+ if msg:
+ raise errors.OpExecError("Cannot resync disks on node %s: %s" %
+ (node, msg))
+ node_done, node_percent = nres.data[1]
+ all_done = all_done and node_done
+ if node_percent is not None:
+ min_percent = min(min_percent, node_percent)
+ if not all_done:
+ if min_percent < 100:
+ self.feedback_fn(" - progress: %.1f%%" % min_percent)
+ time.sleep(2)
+
+ def _EnsureSecondary(self, node):
+ """Demote a node to secondary.
+
+ """
+ self.feedback_fn("* switching node %s to secondary mode" % node)
+
+ for dev in self.instance.disks:
+ self.cfg.SetDiskID(dev, node)
+
+ result = self.rpc.call_blockdev_close(node, self.instance.name,
+ self.instance.disks)
+ msg = result.RemoteFailMsg()
+ if msg:
+ raise errors.OpExecError("Cannot change disk to secondary on node %s,"
+ " error %s" % (node, msg))
+
+ def _GoStandalone(self):
+ """Disconnect from the network.
+
+ """
+ self.feedback_fn("* changing into standalone mode")
+ result = self.rpc.call_drbd_disconnect_net(self.all_nodes, self.nodes_ip,
+ self.instance.disks)
+ for node, nres in result.items():
+ msg = nres.RemoteFailMsg()
+ if msg:
+ raise errors.OpExecError("Cannot disconnect disks node %s,"
+ " error %s" % (node, msg))
+
+ def _GoReconnect(self, multimaster):
+ """Reconnect to the network.
+
+ """
+ if multimaster:
+ msg = "dual-master"
+ else:
+ 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.name, multimaster)
+ for node, nres in result.items():
+ msg = nres.RemoteFailMsg()
+ if msg:
+ raise errors.OpExecError("Cannot change disks config on node %s,"
+ " error: %s" % (node, msg))
+
+ def _ExecCleanup(self):
+ """Try to cleanup after a failed migration.
+
+ The cleanup is done by:
+ - check that the instance is running only on one node
+ (and update the config if needed)
+ - change disks on its secondary node to secondary
+ - wait until disks are fully synchronized
+ - disconnect from the network
+ - change disks into single-master mode
+ - wait again until disks are fully synchronized
+
+ """
+ instance = self.instance
+ target_node = self.target_node
+ source_node = self.source_node
+
+ # check running on only one node
+ self.feedback_fn("* checking where the instance actually runs"
+ " (if this hangs, the hypervisor might be in"
+ " a bad state)")
+ ins_l = self.rpc.call_instance_list(self.all_nodes, [instance.hypervisor])
+ for node, result in ins_l.items():
+ result.Raise()
+ if not isinstance(result.data, list):
+ raise errors.OpExecError("Can't contact node '%s'" % node)
+
+ runningon_source = instance.name in ins_l[source_node].data
+ runningon_target = instance.name in ins_l[target_node].data
+
+ if runningon_source and runningon_target:
+ raise errors.OpExecError("Instance seems to be running on two nodes,"
+ " or the hypervisor is confused. You will have"
+ " to ensure manually that it runs only on one"
+ " and restart this operation.")
+
+ if not (runningon_source or runningon_target):
+ raise errors.OpExecError("Instance does not seem to be running at all."
+ " In this case, it's safer to repair by"
+ " running 'gnt-instance stop' to ensure disk"
+ " shutdown, and then restarting it.")
+
+ if runningon_target:
+ # the migration has actually succeeded, we need to update the config
+ self.feedback_fn("* instance running on secondary node (%s),"
+ " updating config" % target_node)
+ instance.primary_node = target_node
+ self.cfg.Update(instance)
+ demoted_node = source_node
+ else:
+ self.feedback_fn("* instance confirmed to be running on its"
+ " primary node (%s)" % source_node)
+ demoted_node = target_node
+
+ self._EnsureSecondary(demoted_node)
+ try:
+ self._WaitUntilSync()
+ except errors.OpExecError:
+ # we ignore here errors, since if the device is standalone, it
+ # won't be able to sync
+ pass
+ self._GoStandalone()
+ self._GoReconnect(False)
+ self._WaitUntilSync()
+
+ self.feedback_fn("* done")
+
+ def _RevertDiskStatus(self):
+ """Try to revert the disk status after a failed migration.
+
+ """
+ target_node = self.target_node
+ try:
+ self._EnsureSecondary(target_node)
+ self._GoStandalone()
+ self._GoReconnect(False)
+ self._WaitUntilSync()
+ except errors.OpExecError, err:
+ self.LogWarning("Migration failed and I can't reconnect the"
+ " drives: error '%s'\n"
+ "Please look and recover the instance status" %
+ str(err))
+
+ def _AbortMigration(self):
+ """Call the hypervisor code to abort a started migration.
+
+ """
+ instance = self.instance
+ target_node = self.target_node
+ migration_info = self.migration_info
+
+ abort_result = self.rpc.call_finalize_migration(target_node,
+ instance,
+ migration_info,
+ False)
+ abort_msg = abort_result.RemoteFailMsg()
+ if abort_msg:
+ logging.error("Aborting migration failed on target node %s: %s" %
+ (target_node, abort_msg))
+ # Don't raise an exception here, as we stil have to try to revert the
+ # disk status, even if this step failed.
+
+ def _ExecMigration(self):
+ """Migrate an instance.
+
+ The migrate is done by:
+ - change the disks into dual-master mode
+ - wait until disks are fully synchronized again
+ - migrate the instance
+ - change disks on the new secondary node (the old primary) to secondary
+ - wait until disks are fully synchronized
+ - change disks into single-master mode
+
+ """
+ instance = self.instance
+ target_node = self.target_node
+ source_node = self.source_node
+
+ self.feedback_fn("* checking disk consistency between source and target")
+ for dev in instance.disks:
+ if not _CheckDiskConsistency(self, dev, target_node, False):
+ raise errors.OpExecError("Disk %s is degraded or not fully"
+ " synchronized on target node,"
+ " aborting migrate." % dev.iv_name)
+
+ # First get the migration information from the remote node
+ result = self.rpc.call_migration_info(source_node, instance)
+ msg = result.RemoteFailMsg()
+ if msg:
+ log_err = ("Failed fetching source migration information from %s: %s" %
+ (source_node, msg))
+ logging.error(log_err)
+ raise errors.OpExecError(log_err)
+
+ self.migration_info = migration_info = result.data[1]
+
+ # Then switch the disks to master/master mode
+ self._EnsureSecondary(target_node)
+ self._GoStandalone()
+ self._GoReconnect(True)
+ self._WaitUntilSync()
+
+ self.feedback_fn("* preparing %s to accept the instance" % target_node)
+ result = self.rpc.call_accept_instance(target_node,
+ instance,
+ migration_info,
+ self.nodes_ip[target_node])
+
+ msg = result.RemoteFailMsg()
+ if msg:
+ logging.error("Instance pre-migration failed, trying to revert"
+ " disk status: %s", msg)
+ self._AbortMigration()
+ self._RevertDiskStatus()
+ raise errors.OpExecError("Could not pre-migrate instance %s: %s" %
+ (instance.name, msg))
+
+ self.feedback_fn("* migrating instance to %s" % target_node)
+ time.sleep(10)
+ result = self.rpc.call_instance_migrate(source_node, instance,
+ self.nodes_ip[target_node],
+ self.op.live)
+ msg = result.RemoteFailMsg()
+ if msg:
+ logging.error("Instance migration failed, trying to revert"
+ " disk status: %s", msg)
+ self._AbortMigration()
+ self._RevertDiskStatus()
+ raise errors.OpExecError("Could not migrate instance %s: %s" %
+ (instance.name, msg))
+ time.sleep(10)
+
+ instance.primary_node = target_node
+ # distribute new instance config to the other nodes
+ self.cfg.Update(instance)
+
+ result = self.rpc.call_finalize_migration(target_node,
+ instance,
+ migration_info,
+ True)
+ msg = result.RemoteFailMsg()
+ if msg:
+ logging.error("Instance migration succeeded, but finalization failed:"
+ " %s" % msg)
+ raise errors.OpExecError("Could not finalize instance migration: %s" %
+ msg)
+
+ self._EnsureSecondary(source_node)
+ self._WaitUntilSync()
+ self._GoStandalone()
+ self._GoReconnect(False)
+ self._WaitUntilSync()
+
+ self.feedback_fn("* done")
+
+ def Exec(self, feedback_fn):
+ """Perform the migration.
+
+ """
+ self.feedback_fn = feedback_fn
+
+ self.source_node = self.instance.primary_node
+ self.target_node = self.instance.secondary_nodes[0]
+ self.all_nodes = [self.source_node, self.target_node]
+ self.nodes_ip = {
+ self.source_node: self.cfg.GetNodeInfo(self.source_node).secondary_ip,
+ self.target_node: self.cfg.GetNodeInfo(self.target_node).secondary_ip,
+ }
+ if self.op.cleanup:
+ return self._ExecCleanup()
+ else:
+ return self._ExecMigration()
+
+
+def _CreateBlockDev(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
all its children.
If not, just recurse to children keeping the same 'force' value.
+ @param lu: the lu on whose behalf we execute
+ @param node: the node on which to create the device
+ @type instance: L{objects.Instance}
+ @param instance: the instance which owns the device
+ @type device: L{objects.Disk}
+ @param device: the device to create
+ @type force_create: boolean
+ @param force_create: whether to force creation of this device; this
+ will be change to True whenever we find a device which has
+ CreateOnSecondary() attribute
+ @param info: the extra 'metadata' we should attach to the device
+ (this will be represented as a LVM tag)
+ @type force_open: boolean
+ @param force_open: this parameter will be passes to the
+ L{backend.CreateBlockDevice} function where it specifies
+ whether we run on primary or not, and it affects both
+ the child assembly and the device own Open() execution
+
"""
if device.CreateOnSecondary():
- force = True
+ force_create = True
+
if device.children:
for child in device.children:
- if not _CreateBlockDevOnSecondary(lu, node, instance,
- child, force, info):
- return False
+ _CreateBlockDev(lu, node, instance, child, force_create,
+ info, force_open)
- if not force:
- return True
+ if not force_create:
+ return
+
+ _CreateSingleBlockDev(lu, node, instance, device, info, force_open)
+
+
+def _CreateSingleBlockDev(lu, node, instance, device, info, force_open):
+ """Create a single block device on a given node.
+
+ This will not recurse over children of the device, so they must be
+ created in advance.
+
+ @param lu: the lu on whose behalf we execute
+ @param node: the node on which to create the device
+ @type instance: L{objects.Instance}
+ @param instance: the instance which owns the device
+ @type device: L{objects.Disk}
+ @param device: the device to create
+ @param info: the extra 'metadata' we should attach to the device
+ (this will be represented as a LVM tag)
+ @type force_open: boolean
+ @param force_open: this parameter will be passes to the
+ L{backend.CreateBlockDevice} function where it specifies
+ whether we run on primary or not, and it affects both
+ the child assembly and the device own Open() execution
+
+ """
lu.cfg.SetDiskID(device, node)
- new_id = lu.rpc.call_blockdev_create(node, device, device.size,
- instance.name, False, info)
- if new_id.failed or not new_id.data:
- return False
+ result = lu.rpc.call_blockdev_create(node, device, device.size,
+ instance.name, force_open, info)
+ msg = result.RemoteFailMsg()
+ if msg:
+ raise errors.OpExecError("Can't create block device %s on"
+ " node %s for instance %s: %s" %
+ (device, node, instance.name, msg))
if device.physical_id is None:
- device.physical_id = new_id
- return True
+ device.physical_id = result.data[1]
def _GenerateUniqueNames(lu, exts):
disk_index = idx + base_index
disk_dev = objects.Disk(dev_type=constants.LD_LV, size=disk["size"],
logical_id=(vgname, names[idx]),
- iv_name="disk/%d" % disk_index)
+ iv_name="disk/%d" % disk_index,
+ mode=disk["mode"])
disks.append(disk_dev)
elif template_name == constants.DT_DRBD8:
if len(secondary_nodes) != 1:
minors = lu.cfg.AllocateDRBDMinor(
[primary_node, remote_node] * len(disk_info), instance_name)
- names = _GenerateUniqueNames(lu,
- [".disk%d_%s" % (i, s)
- for i in range(disk_count)
- for s in ("data", "meta")
- ])
+ names = []
+ for lv_prefix in _GenerateUniqueNames(lu, [".disk%d" % i
+ for i in range(disk_count)]):
+ names.append(lv_prefix + "_data")
+ names.append(lv_prefix + "_meta")
for idx, disk in enumerate(disk_info):
disk_index = idx + base_index
disk_dev = _GenerateDRBD8Branch(lu, primary_node, remote_node,
disk["size"], names[idx*2:idx*2+2],
"disk/%d" % disk_index,
minors[idx*2], minors[idx*2+1])
+ disk_dev.mode = disk["mode"]
disks.append(disk_dev)
elif template_name == constants.DT_FILE:
if len(secondary_nodes) != 0:
iv_name="disk/%d" % disk_index,
logical_id=(file_driver,
"%s/disk%d" % (file_storage_dir,
- idx)))
+ idx)),
+ mode=disk["mode"])
disks.append(disk_dev)
else:
raise errors.ProgrammerError("Invalid disk template '%s'" % template_name)
"""
info = _GetInstanceInfoText(instance)
+ pnode = instance.primary_node
if instance.disk_template == constants.DT_FILE:
file_storage_dir = os.path.dirname(instance.disks[0].logical_id[1])
- result = lu.rpc.call_file_storage_dir_create(instance.primary_node,
- file_storage_dir)
+ result = lu.rpc.call_file_storage_dir_create(pnode, file_storage_dir)
if result.failed or not result.data:
- logging.error("Could not connect to node '%s'", instance.primary_node)
- return False
+ raise errors.OpExecError("Could not connect to node '%s'" % pnode)
if not result.data[0]:
- logging.error("Failed to create directory '%s'", file_storage_dir)
- return False
+ raise errors.OpExecError("Failed to create directory '%s'" %
+ file_storage_dir)
# Note: this needs to be kept in sync with adding of disks in
# LUSetInstanceParams
logging.info("Creating volume %s for instance %s",
device.iv_name, instance.name)
#HARDCODE
- for secondary_node in instance.secondary_nodes:
- if not _CreateBlockDevOnSecondary(lu, secondary_node, instance,
- device, False, info):
- logging.error("Failed to create volume %s (%s) on secondary node %s!",
- device.iv_name, device, secondary_node)
- return False
- #HARDCODE
- if not _CreateBlockDevOnPrimary(lu, instance.primary_node,
- instance, device, info):
- logging.error("Failed to create volume %s on primary!", device.iv_name)
- return False
-
- return True
+ for node in instance.all_nodes:
+ f_create = node == pnode
+ _CreateBlockDev(lu, node, instance, device, f_create, info, f_create)
def _RemoveDisks(lu, instance):
hvparams)
for node in nodenames:
info = hvinfo[node]
+ if info.offline:
+ continue
info.Raise()
if not info.data or not isinstance(info.data, (tuple, list)):
raise errors.OpPrereqError("Cannot get current information"
raise errors.OpPrereqError("Invalid MAC address specified: %s" %
mac)
# bridge verification
- bridge = nic.get("bridge", self.cfg.GetDefBridge())
+ bridge = nic.get("bridge", None)
+ if bridge is None:
+ bridge = self.cfg.GetDefBridge()
self.nics.append(objects.NIC(mac=mac, ip=nic_ip, bridge=bridge))
# disk checks/pre-build
raise errors.OpPrereqError("No export found for relative path %s" %
src_path)
+ _CheckNodeOnline(self, src_node)
result = self.rpc.call_export_info(src_node, src_path)
result.Raise()
if not result.data:
self.pnode = pnode = self.cfg.GetNodeInfo(self.op.pnode)
assert self.pnode is not None, \
"Cannot retrieve locked node %s" % self.op.pnode
+ if pnode.offline:
+ raise errors.OpPrereqError("Cannot use offline primary node '%s'" %
+ pnode.name)
+
self.secondaries = []
# mirror node verification
raise errors.OpPrereqError("The secondary node cannot be"
" the primary node.")
self.secondaries.append(self.op.snode)
+ _CheckNodeOnline(self, self.op.snode)
nodenames = [pnode.name] + self.secondaries
self.be_full[constants.BE_MEMORY],
self.op.hypervisor)
- if self.op.start:
- self.instance_status = 'up'
- else:
- self.instance_status = 'down'
+ self.instance_status = self.op.start
def Exec(self, feedback_fn):
"""Create and add the instance to the cluster.
primary_node=pnode_name,
nics=self.nics, disks=disks,
disk_template=self.op.disk_template,
- status=self.instance_status,
+ admin_up=self.instance_status,
network_port=network_port,
beparams=self.op.beparams,
hvparams=self.op.hvparams,
)
feedback_fn("* creating instance disks...")
- if not _CreateDisks(self, iobj):
- _RemoveDisks(self, iobj)
- self.cfg.ReleaseDRBDMinors(instance)
- raise errors.OpExecError("Device creation failed, reverting...")
+ try:
+ _CreateDisks(self, iobj)
+ except errors.OpExecError:
+ self.LogWarning("Device creation failed, reverting...")
+ try:
+ _RemoveDisks(self, iobj)
+ finally:
+ self.cfg.ReleaseDRBDMinors(instance)
+ raise
feedback_fn("adding instance %s to cluster config" % instance)
# Declare that we don't want to remove the instance lock anymore, as we've
# added the instance to the config
del self.remove_locks[locking.LEVEL_INSTANCE]
- # Remove the temp. assignements for the instance's drbds
- self.cfg.ReleaseDRBDMinors(instance)
# Unlock all the nodes
if self.op.mode == constants.INSTANCE_IMPORT:
nodes_keep = [self.op.src_node]
if self.op.mode == constants.INSTANCE_CREATE:
feedback_fn("* running the instance OS create scripts...")
result = self.rpc.call_instance_os_add(pnode_name, iobj)
- result.Raise()
- if not result.data:
+ msg = result.RemoteFailMsg()
+ if msg:
raise errors.OpExecError("Could not add os for instance %s"
- " on node %s" %
- (instance, pnode_name))
+ " on node %s: %s" %
+ (instance, pnode_name, msg))
elif self.op.mode == constants.INSTANCE_IMPORT:
feedback_fn("* running the instance OS import scripts...")
logging.info("Starting instance %s on node %s", instance, pnode_name)
feedback_fn("* starting instance...")
result = self.rpc.call_instance_start(pnode_name, iobj, None)
- result.Raise()
- if not result.data:
- raise errors.OpExecError("Could not start instance")
+ msg = result.RemoteFailMsg()
+ if msg:
+ raise errors.OpExecError("Could not start instance: %s" % msg)
class LUConnectConsole(NoHooksLU):
self.instance = self.cfg.GetInstanceInfo(self.op.instance_name)
assert self.instance is not None, \
"Cannot retrieve locked instance %s" % self.op.instance_name
+ _CheckNodeOnline(self, self.instance.primary_node)
def Exec(self, feedback_fn):
"""Connect to the console of an instance
logging.debug("Connecting to console of %s on %s", instance.name, node)
hyper = hypervisor.GetHypervisor(instance.hypervisor)
- console_cmd = hyper.GetShellCommandForConsole(instance)
+ cluster = self.cfg.GetClusterInfo()
+ # beparams and hvparams are passed separately, to avoid editing the
+ # instance and then saving the defaults in the instance itself.
+ hvparams = cluster.FillHV(instance)
+ beparams = cluster.FillBE(instance)
+ console_cmd = hyper.GetShellCommandForConsole(instance, hvparams, beparams)
# build ssh cmdline
return self.ssh.BuildCmd(node, "root", console_cmd, batch=True, tty=True)
_OP_REQP = ["instance_name", "mode", "disks"]
REQ_BGL = False
- def ExpandNames(self):
- self._ExpandAndLockInstance()
-
+ def CheckArguments(self):
if not hasattr(self.op, "remote_node"):
self.op.remote_node = None
-
- ia_name = getattr(self.op, "iallocator", None)
- if ia_name is not None:
- if self.op.remote_node is not None:
+ if not hasattr(self.op, "iallocator"):
+ self.op.iallocator = None
+
+ # check for valid parameter combination
+ cnt = [self.op.remote_node, self.op.iallocator].count(None)
+ if self.op.mode == constants.REPLACE_DISK_CHG:
+ if cnt == 2:
+ raise errors.OpPrereqError("When changing the secondary either an"
+ " iallocator script must be used or the"
+ " new node given")
+ elif cnt == 0:
raise errors.OpPrereqError("Give either the iallocator or the new"
" secondary, not both")
+ else: # not replacing the secondary
+ if cnt != 2:
+ raise errors.OpPrereqError("The iallocator and new node options can"
+ " be used only when changing the"
+ " secondary node")
+
+ def ExpandNames(self):
+ self._ExpandAndLockInstance()
+
+ if self.op.iallocator is not None:
self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET
elif self.op.remote_node is not None:
remote_node = self.cfg.ExpandNodeName(self.op.remote_node)
raise errors.OpPrereqError("Node '%s' not known" %
self.op.remote_node)
self.op.remote_node = remote_node
+ # Warning: do not remove the locking of the new secondary here
+ # unless DRBD8.AddChildren is changed to work in parallel;
+ # currently it doesn't since parallel invocations of
+ # FindUnusedMinor will conflict
self.needed_locks[locking.LEVEL_NODE] = [remote_node]
self.recalculate_locks[locking.LEVEL_NODE] = constants.LOCKS_APPEND
else:
"Cannot retrieve locked instance %s" % self.op.instance_name
self.instance = instance
- if instance.disk_template not in constants.DTS_NET_MIRROR:
- raise errors.OpPrereqError("Instance's disk layout is not"
- " network mirrored.")
+ if instance.disk_template != constants.DT_DRBD8:
+ raise errors.OpPrereqError("Can only run replace disks for DRBD8-based"
+ " instances")
if len(instance.secondary_nodes) != 1:
raise errors.OpPrereqError("The instance has a strange layout,"
self.sec_node = instance.secondary_nodes[0]
- ia_name = getattr(self.op, "iallocator", None)
- if ia_name is not None:
+ if self.op.iallocator is not None:
self._RunAllocator()
remote_node = self.op.remote_node
raise errors.OpPrereqError("The specified node is the primary node of"
" the instance.")
elif remote_node == self.sec_node:
- if self.op.mode == constants.REPLACE_DISK_SEC:
- # this is for DRBD8, where we can't execute the same mode of
- # replacement as for drbd7 (no different port allocated)
- raise errors.OpPrereqError("Same secondary given, cannot execute"
- " replacement")
- if instance.disk_template == constants.DT_DRBD8:
- if (self.op.mode == constants.REPLACE_DISK_ALL and
- remote_node is not None):
- # switch to replace secondary mode
- self.op.mode = constants.REPLACE_DISK_SEC
-
- if self.op.mode == constants.REPLACE_DISK_ALL:
- raise errors.OpPrereqError("Template 'drbd' only allows primary or"
- " secondary disk replacement, not"
- " both at once")
- elif self.op.mode == constants.REPLACE_DISK_PRI:
- if remote_node is not None:
- raise errors.OpPrereqError("Template 'drbd' does not allow changing"
- " the secondary while doing a primary"
- " node disk replacement")
- self.tgt_node = instance.primary_node
- self.oth_node = instance.secondary_nodes[0]
- elif self.op.mode == constants.REPLACE_DISK_SEC:
- self.new_node = remote_node # this can be None, in which case
- # we don't change the secondary
- self.tgt_node = instance.secondary_nodes[0]
- self.oth_node = instance.primary_node
- else:
- raise errors.ProgrammerError("Unhandled disk replace mode")
+ raise errors.OpPrereqError("The specified node is already the"
+ " secondary node of the instance.")
+
+ if self.op.mode == constants.REPLACE_DISK_PRI:
+ n1 = self.tgt_node = instance.primary_node
+ n2 = self.oth_node = self.sec_node
+ elif self.op.mode == constants.REPLACE_DISK_SEC:
+ n1 = self.tgt_node = self.sec_node
+ n2 = self.oth_node = instance.primary_node
+ elif self.op.mode == constants.REPLACE_DISK_CHG:
+ n1 = self.new_node = remote_node
+ n2 = self.oth_node = instance.primary_node
+ self.tgt_node = self.sec_node
+ else:
+ raise errors.ProgrammerError("Unhandled disk replace mode")
+
+ _CheckNodeOnline(self, n1)
+ _CheckNodeOnline(self, n2)
if not self.op.disks:
self.op.disks = range(len(instance.disks))
iv_names[dev.iv_name] = (dev, old_lvs, new_lvs)
info("creating new local storage on %s for %s" %
(tgt_node, dev.iv_name))
- # since we *always* want to create this LV, we use the
- # _Create...OnPrimary (which forces the creation), even if we
- # are talking about the secondary node
+ # we pass force_create=True to force the LVM creation
for new_lv in new_lvs:
- if not _CreateBlockDevOnPrimary(self, tgt_node, instance, new_lv,
- _GetInstanceInfoText(instance)):
- raise errors.OpExecError("Failed to create new LV named '%s' on"
- " node '%s'" %
- (new_lv.logical_id[1], tgt_node))
+ _CreateBlockDev(self, tgt_node, instance, new_lv, True,
+ _GetInstanceInfoText(instance), False)
# Step: for each lv, detach+rename*2+attach
self.proc.LogStep(4, steps_total, "change drbd configuration")
# now that the new lvs have the old name, we can add them to the device
info("adding new mirror component on %s" % tgt_node)
- result =self.rpc.call_blockdev_addchildren(tgt_node, dev, new_lvs)
+ result = self.rpc.call_blockdev_addchildren(tgt_node, dev, new_lvs)
if result.failed or not result.data:
for new_lv in new_lvs:
result = self.rpc.call_blockdev_remove(tgt_node, new_lv)
warning, info = (self.proc.LogWarning, self.proc.LogInfo)
instance = self.instance
iv_names = {}
- vgname = self.cfg.GetVGName()
# start of work
cfg = self.cfg
old_node = self.tgt_node
new_node = self.new_node
pri_node = instance.primary_node
+ nodes_ip = {
+ old_node: self.cfg.GetNodeInfo(old_node).secondary_ip,
+ new_node: self.cfg.GetNodeInfo(new_node).secondary_ip,
+ pri_node: self.cfg.GetNodeInfo(pri_node).secondary_ip,
+ }
# Step: check device activation
self.proc.LogStep(1, steps_total, "check device existence")
# Step: create new storage
self.proc.LogStep(3, steps_total, "allocate new storage")
for idx, dev in enumerate(instance.disks):
- size = dev.size
info("adding new local storage on %s for disk/%d" %
(new_node, idx))
- # since we *always* want to create this LV, we use the
- # _Create...OnPrimary (which forces the creation), even if we
- # are talking about the secondary node
+ # we pass force_create=True to force LVM creation
for new_lv in dev.children:
- if not _CreateBlockDevOnPrimary(self, new_node, instance, new_lv,
- _GetInstanceInfoText(instance)):
- raise errors.OpExecError("Failed to create new LV named '%s' on"
- " node '%s'" %
- (new_lv.logical_id[1], new_node))
+ _CreateBlockDev(self, new_node, instance, new_lv, True,
+ _GetInstanceInfoText(instance), False)
# Step 4: dbrd minors and drbd setups changes
# after this, we must manually remove the drbd minors on both the
for idx, (dev, new_minor) in enumerate(zip(instance.disks, minors)):
size = dev.size
info("activating a new drbd on %s for disk/%d" % (new_node, idx))
- # create new devices on new_node
- if pri_node == dev.logical_id[0]:
- new_logical_id = (pri_node, new_node,
- dev.logical_id[2], dev.logical_id[3], new_minor,
- dev.logical_id[5])
+ # create new devices on new_node; note that we create two IDs:
+ # one without port, so the drbd will be activated without
+ # networking information on the new node at this stage, and one
+ # with network, for the latter activation in step 4
+ (o_node1, o_node2, o_port, o_minor1, o_minor2, o_secret) = dev.logical_id
+ if pri_node == o_node1:
+ p_minor = o_minor1
else:
- new_logical_id = (new_node, pri_node,
- dev.logical_id[2], new_minor, dev.logical_id[4],
- dev.logical_id[5])
- iv_names[idx] = (dev, dev.children, new_logical_id)
+ p_minor = o_minor2
+
+ new_alone_id = (pri_node, new_node, None, p_minor, new_minor, o_secret)
+ new_net_id = (pri_node, new_node, o_port, p_minor, new_minor, o_secret)
+
+ iv_names[idx] = (dev, dev.children, new_net_id)
logging.debug("Allocated new_minor: %s, new_logical_id: %s", new_minor,
- new_logical_id)
+ new_net_id)
new_drbd = objects.Disk(dev_type=constants.LD_DRBD8,
- logical_id=new_logical_id,
+ logical_id=new_alone_id,
children=dev.children)
- if not _CreateBlockDevOnSecondary(self, new_node, instance,
- new_drbd, False,
- _GetInstanceInfoText(instance)):
+ try:
+ _CreateSingleBlockDev(self, new_node, instance, new_drbd,
+ _GetInstanceInfoText(instance), False)
+ except errors.BlockDeviceError:
self.cfg.ReleaseDRBDMinors(instance.name)
- raise errors.OpExecError("Failed to create new DRBD on"
- " node '%s'" % new_node)
+ raise
for idx, dev in enumerate(instance.disks):
# we have new devices, shutdown the drbd on the old secondary
hint="Please cleanup this device manually as soon as possible")
info("detaching primary drbds from the network (=> standalone)")
- done = 0
- for idx, dev in enumerate(instance.disks):
- cfg.SetDiskID(dev, pri_node)
- # set the network part of the physical (unique in bdev terms) id
- # to None, meaning detach from network
- dev.physical_id = (None, None, None, None) + dev.physical_id[4:]
- # and 'find' the device, which will 'fix' it to match the
- # standalone state
- result = self.rpc.call_blockdev_find(pri_node, dev)
- if not result.failed and result.data:
- done += 1
- else:
- warning("Failed to detach drbd disk/%d from network, unusual case" %
- idx)
+ result = self.rpc.call_drbd_disconnect_net([pri_node], nodes_ip,
+ instance.disks)[pri_node]
- if not done:
- # no detaches succeeded (very unlikely)
+ msg = result.RemoteFailMsg()
+ if msg:
+ # detaches didn't succeed (unlikely)
self.cfg.ReleaseDRBDMinors(instance.name)
- raise errors.OpExecError("Can't detach at least one DRBD from old node")
+ raise errors.OpExecError("Can't detach the disks from the network on"
+ " old node: %s" % (msg,))
# if we managed to detach at least one, we update all the disks of
# the instance to point to the new secondary
dev.logical_id = new_logical_id
cfg.SetDiskID(dev, pri_node)
cfg.Update(instance)
- # we can remove now the temp minors as now the new values are
- # written to the config file (and therefore stable)
- self.cfg.ReleaseDRBDMinors(instance.name)
# and now perform the drbd attach
info("attaching primary drbds to new secondary (standalone => connected)")
- failures = []
- for idx, dev in enumerate(instance.disks):
- info("attaching primary drbd for disk/%d to new secondary node" % idx)
- # since the attach is smart, it's enough to 'find' the device,
- # it will automatically activate the network, if the physical_id
- # is correct
- cfg.SetDiskID(dev, pri_node)
- logging.debug("Disk to attach: %s", dev)
- result = self.rpc.call_blockdev_find(pri_node, dev)
- if result.failed or not result.data:
- warning("can't attach drbd disk/%d to new secondary!" % idx,
- "please do a gnt-instance info to see the status of disks")
+ result = self.rpc.call_drbd_attach_net([pri_node, new_node], nodes_ip,
+ instance.disks, instance.name,
+ False)
+ for to_node, to_result in result.items():
+ msg = to_result.RemoteFailMsg()
+ if msg:
+ warning("can't attach drbd disks on node %s: %s", to_node, msg,
+ hint="please do a gnt-instance info to see the"
+ " status of disks")
# this can fail as the old devices are degraded and _WaitForSync
# does a combined result over all disks, so we don't check its
instance = self.instance
# Activate the instance disks if we're replacing them on a down instance
- if instance.status == "down":
+ if not instance.admin_up:
_StartInstanceDisks(self, instance, True)
- if instance.disk_template == constants.DT_DRBD8:
- if self.op.remote_node is None:
- fn = self._ExecD8DiskOnly
- else:
- fn = self._ExecD8Secondary
+ if self.op.mode == constants.REPLACE_DISK_CHG:
+ fn = self._ExecD8Secondary
else:
- raise errors.ProgrammerError("Unhandled disk replacement case")
+ fn = self._ExecD8DiskOnly
ret = fn(feedback_fn)
# Deactivate the instance disks if we're replacing them on a down instance
- if instance.status == "down":
+ if not instance.admin_up:
_SafeShutdownInstanceDisks(self, instance)
return ret
instance = self.cfg.GetInstanceInfo(self.op.instance_name)
assert instance is not None, \
"Cannot retrieve locked instance %s" % self.op.instance_name
+ nodenames = list(instance.all_nodes)
+ for node in nodenames:
+ _CheckNodeOnline(self, node)
+
self.instance = instance
self.disk = instance.FindDisk(self.op.disk)
- nodenames = [instance.primary_node] + list(instance.secondary_nodes)
nodeinfo = self.rpc.call_node_info(nodenames, self.cfg.GetVGName(),
instance.hypervisor)
for node in nodenames:
"""
instance = self.instance
disk = self.disk
- for node in (instance.secondary_nodes + (instance.primary_node,)):
+ for node in instance.all_nodes:
self.cfg.SetDiskID(disk, node)
result = self.rpc.call_blockdev_grow(node, disk, self.op.amount)
result.Raise()
for name in self.op.instances:
full_name = self.cfg.ExpandInstanceName(name)
if full_name is None:
- raise errors.OpPrereqError("Instance '%s' not known" %
- self.op.instance_name)
+ raise errors.OpPrereqError("Instance '%s' not known" % name)
self.wanted_names.append(full_name)
self.needed_locks[locking.LEVEL_INSTANCE] = self.wanted_names
else:
remote_state = "down"
else:
remote_state = None
- if instance.status == "down":
- config_state = "down"
- else:
+ if instance.admin_up:
config_state = "up"
+ else:
+ config_state = "down"
disks = [self._ComputeDiskStatus(instance, None, device)
for device in instance.disks]
raise errors.OpPrereqError("Invalid disk index")
if disk_op == constants.DDM_ADD:
mode = disk_dict.setdefault('mode', constants.DISK_RDWR)
- if mode not in (constants.DISK_RDONLY, constants.DISK_RDWR):
+ if mode not in constants.DISK_ACCESS_SET:
raise errors.OpPrereqError("Invalid disk access mode '%s'" % mode)
size = disk_dict.get('size', None)
if size is None:
args['vcpus'] = self.be_new[constants.BE_VCPUS]
# FIXME: readd disk/nic changes
env = _BuildInstanceHookEnvByObject(self, self.instance, override=args)
- nl = [self.cfg.GetMasterNode(),
- self.instance.primary_node] + list(self.instance.secondary_nodes)
+ nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes)
return env, nl, nl
def CheckPrereq(self):
instance = self.instance = self.cfg.GetInstanceInfo(self.op.instance_name)
assert self.instance is not None, \
"Cannot retrieve locked instance %s" % self.op.instance_name
- pnode = self.instance.primary_node
- nodelist = [pnode]
- nodelist.extend(instance.secondary_nodes)
+ pnode = instance.primary_node
+ nodelist = list(instance.all_nodes)
# hvparams processing
if self.op.hvparams:
" missing on its primary node" % miss_mem)
if be_new[constants.BE_AUTO_BALANCE]:
- for node, nres in instance.secondary_nodes.iteritems():
+ for node, nres in nodeinfo.iteritems():
+ if node not in instance.secondary_nodes:
+ continue
if nres.failed or not isinstance(nres.data, dict):
self.warn.append("Can't get info from secondary node %s" % node)
elif be_new[constants.BE_MEMORY] > nres.data['memory_free']:
" an instance")
ins_l = self.rpc.call_instance_list([pnode], [instance.hypervisor])
ins_l = ins_l[pnode]
- if not type(ins_l) is list:
+ if ins_l.failed or not isinstance(ins_l.data, list):
raise errors.OpPrereqError("Can't contact node '%s'" % pnode)
- if instance.name in ins_l:
+ if instance.name in ins_l.data:
raise errors.OpPrereqError("Instance is running, can't remove"
" disks.")
device_idx = len(instance.disks)
for node, disk in device.ComputeNodeTree(instance.primary_node):
self.cfg.SetDiskID(disk, node)
- result = self.rpc.call_blockdev_remove(node, disk)
- if result.failed or not result.data:
+ rpc_result = self.rpc.call_blockdev_remove(node, disk)
+ if rpc_result.failed or not rpc_result.data:
self.proc.LogWarning("Could not remove disk/%d on node %s,"
" continuing anyway", device_idx, node)
result.append(("disk/%d" % device_idx, "remove"))
disk_idx_base = len(instance.disks)
new_disk = _GenerateDiskTemplate(self,
instance.disk_template,
- instance, instance.primary_node,
+ instance.name, instance.primary_node,
instance.secondary_nodes,
[disk_dict],
file_path,
file_driver,
disk_idx_base)[0]
- new_disk.mode = disk_dict['mode']
instance.disks.append(new_disk)
info = _GetInstanceInfoText(instance)
new_disk.iv_name, instance.name)
# Note: this needs to be kept in sync with _CreateDisks
#HARDCODE
- for secondary_node in instance.secondary_nodes:
- if not _CreateBlockDevOnSecondary(self, secondary_node, instance,
- new_disk, False, info):
+ for node in instance.all_nodes:
+ f_create = node == instance.primary_node
+ try:
+ _CreateBlockDev(self, node, instance, new_disk,
+ f_create, info, f_create)
+ except errors.OpExecError, err:
self.LogWarning("Failed to create volume %s (%s) on"
- " secondary node %s!",
- new_disk.iv_name, new_disk, secondary_node)
- #HARDCODE
- if not _CreateBlockDevOnPrimary(self, instance.primary_node,
- instance, new_disk, info):
- self.LogWarning("Failed to create volume %s on primary!",
- new_disk.iv_name)
+ " node %s: %s",
+ new_disk.iv_name, new_disk, node, err)
result.append(("disk/%d" % disk_idx_base, "add:size=%s,mode=%s" %
(new_disk.size, new_disk.mode)))
else:
self.instance = self.cfg.GetInstanceInfo(instance_name)
assert self.instance is not None, \
"Cannot retrieve locked instance %s" % self.op.instance_name
+ _CheckNodeOnline(self, self.instance.primary_node)
self.dst_node = self.cfg.GetNodeInfo(
self.cfg.ExpandNodeName(self.op.target_node))
if self.dst_node is None:
# This is wrong node name, not a non-locked node
raise errors.OpPrereqError("Wrong node name %s" % self.op.target_node)
+ _CheckNodeOnline(self, self.dst_node.name)
# instance disk type verification
for disk in self.instance.disks:
snap_disks = []
+ # set the disks ID correctly since call_instance_start needs the
+ # correct drbd minor to create the symlinks
+ for disk in instance.disks:
+ self.cfg.SetDiskID(disk, src_node)
+
try:
for disk in instance.disks:
# new_dev_name will be a snapshot of an lvm leaf of the one we passed
snap_disks.append(new_dev)
finally:
- if self.op.shutdown and instance.status == "up":
+ if self.op.shutdown and instance.admin_up:
result = self.rpc.call_instance_start(src_node, instance, None)
- if result.failed or not result.data:
+ msg = result.RemoteFailMsg()
+ if msg:
_ShutdownInstanceDisks(self, instance)
- raise errors.OpExecError("Could not start instance")
+ raise errors.OpExecError("Could not start instance: %s" % msg)
# TODO: check for size
self.name = name
self.mem_size = self.disks = self.disk_template = None
self.os = self.tags = self.nics = self.vcpus = None
+ self.hypervisor = None
self.relocate_from = None
# computed fields
self.required_nodes = None
"version": 1,
"cluster_name": cfg.GetClusterName(),
"cluster_tags": list(cluster_info.GetTags()),
- "enable_hypervisors": list(cluster_info.enabled_hypervisors),
+ "enabled_hypervisors": list(cluster_info.enabled_hypervisors),
# we don't have job IDs
}
iinfo = cfg.GetAllInstancesInfo().values()
node_list = cfg.GetNodeList()
if self.mode == constants.IALLOCATOR_MODE_ALLOC:
- hypervisor = self.hypervisor
+ hypervisor_name = self.hypervisor
elif self.mode == constants.IALLOCATOR_MODE_RELOC:
- hypervisor = cfg.GetInstanceInfo(self.name).hypervisor
+ hypervisor_name = cfg.GetInstanceInfo(self.name).hypervisor
node_data = self.lu.rpc.call_node_info(node_list, cfg.GetVGName(),
- hypervisor)
+ hypervisor_name)
node_iinfo = self.lu.rpc.call_all_instances_info(node_list,
cluster_info.enabled_hypervisors)
- for nname in node_list:
+ for nname, nresult in node_data.items():
+ # first fill in static (config-based) values
ninfo = cfg.GetNodeInfo(nname)
- node_data[nname].Raise()
- if not isinstance(node_data[nname].data, dict):
- raise errors.OpExecError("Can't get data for node %s" % nname)
- remote_info = node_data[nname].data
- for attr in ['memory_total', 'memory_free', 'memory_dom0',
- 'vg_size', 'vg_free', 'cpu_total']:
- if attr not in remote_info:
- raise errors.OpExecError("Node '%s' didn't return attribute '%s'" %
- (nname, attr))
- try:
- remote_info[attr] = int(remote_info[attr])
- except ValueError, err:
- raise errors.OpExecError("Node '%s' returned invalid value for '%s':"
- " %s" % (nname, attr, str(err)))
- # compute memory used by primary instances
- i_p_mem = i_p_up_mem = 0
- for iinfo, beinfo in i_list:
- if iinfo.primary_node == nname:
- i_p_mem += beinfo[constants.BE_MEMORY]
- if iinfo.name not in node_iinfo[nname]:
- i_used_mem = 0
- else:
- i_used_mem = int(node_iinfo[nname][iinfo.name]['memory'])
- i_mem_diff = beinfo[constants.BE_MEMORY] - i_used_mem
- remote_info['memory_free'] -= max(0, i_mem_diff)
-
- if iinfo.status == "up":
- i_p_up_mem += beinfo[constants.BE_MEMORY]
-
- # compute memory used by instances
pnr = {
"tags": list(ninfo.GetTags()),
- "total_memory": remote_info['memory_total'],
- "reserved_memory": remote_info['memory_dom0'],
- "free_memory": remote_info['memory_free'],
- "i_pri_memory": i_p_mem,
- "i_pri_up_memory": i_p_up_mem,
- "total_disk": remote_info['vg_size'],
- "free_disk": remote_info['vg_free'],
"primary_ip": ninfo.primary_ip,
"secondary_ip": ninfo.secondary_ip,
- "total_cpus": remote_info['cpu_total'],
"offline": ninfo.offline,
+ "master_candidate": ninfo.master_candidate,
}
+
+ if not ninfo.offline:
+ nresult.Raise()
+ if not isinstance(nresult.data, dict):
+ raise errors.OpExecError("Can't get data for node %s" % nname)
+ remote_info = nresult.data
+ for attr in ['memory_total', 'memory_free', 'memory_dom0',
+ 'vg_size', 'vg_free', 'cpu_total']:
+ if attr not in remote_info:
+ raise errors.OpExecError("Node '%s' didn't return attribute"
+ " '%s'" % (nname, attr))
+ try:
+ remote_info[attr] = int(remote_info[attr])
+ except ValueError, err:
+ raise errors.OpExecError("Node '%s' returned invalid value"
+ " for '%s': %s" % (nname, attr, err))
+ # compute memory used by primary instances
+ i_p_mem = i_p_up_mem = 0
+ for iinfo, beinfo in i_list:
+ if iinfo.primary_node == nname:
+ i_p_mem += beinfo[constants.BE_MEMORY]
+ if iinfo.name not in node_iinfo[nname].data:
+ i_used_mem = 0
+ else:
+ i_used_mem = int(node_iinfo[nname].data[iinfo.name]['memory'])
+ i_mem_diff = beinfo[constants.BE_MEMORY] - i_used_mem
+ remote_info['memory_free'] -= max(0, i_mem_diff)
+
+ if iinfo.admin_up:
+ i_p_up_mem += beinfo[constants.BE_MEMORY]
+
+ # compute memory used by instances
+ pnr_dyn = {
+ "total_memory": remote_info['memory_total'],
+ "reserved_memory": remote_info['memory_dom0'],
+ "free_memory": remote_info['memory_free'],
+ "total_disk": remote_info['vg_size'],
+ "free_disk": remote_info['vg_free'],
+ "total_cpus": remote_info['cpu_total'],
+ "i_pri_memory": i_p_mem,
+ "i_pri_up_memory": i_p_up_mem,
+ }
+ pnr.update(pnr_dyn)
+
node_results[nname] = pnr
data["nodes"] = node_results
for n in iinfo.nics]
pir = {
"tags": list(iinfo.GetTags()),
- "should_run": iinfo.status == "up",
+ "admin_up": iinfo.admin_up,
"vcpus": beinfo[constants.BE_VCPUS],
"memory": beinfo[constants.BE_MEMORY],
"os": iinfo.os,
"nodes": [iinfo.primary_node] + list(iinfo.secondary_nodes),
"nics": nic_data,
- "disks": [{"size": dsk.size, "mode": "w"} for dsk in iinfo.disks],
+ "disks": [{"size": dsk.size, "mode": dsk.mode} for dsk in iinfo.disks],
"disk_template": iinfo.disk_template,
"hypervisor": iinfo.hypervisor,
}
"""
data = self.in_data
- if len(self.disks) != 2:
- raise errors.OpExecError("Only two-disk configurations supported")
disk_space = _ComputeDiskSize(self.disk_template, self.disks)
" 'nics' parameter")
if not isinstance(self.op.disks, list):
raise errors.OpPrereqError("Invalid parameter 'disks'")
- if len(self.op.disks) != 2:
- raise errors.OpPrereqError("Only two-disk configurations supported")
for row in self.op.disks:
if (not isinstance(row, dict) or
"size" not in row or
row["mode"] not in ['r', 'w']):
raise errors.OpPrereqError("Invalid contents of the"
" 'disks' parameter")
- if self.op.hypervisor is None:
+ if not hasattr(self.op, "hypervisor") or self.op.hypervisor is None:
self.op.hypervisor = self.cfg.GetHypervisorType()
elif self.op.mode == constants.IALLOCATOR_MODE_RELOC:
if not hasattr(self.op, "name"):