# # # Copyright (C) 2006, 2007, 2008 Google Inc. # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA # 02110-1301, USA. """Module implementing the master-side code.""" # pylint: disable-msg=W0613,W0201 import os import os.path import sha import time import tempfile import re import platform import logging import copy import random from ganeti import ssh from ganeti import utils from ganeti import errors from ganeti import hypervisor from ganeti import locking from ganeti import constants from ganeti import objects from ganeti import opcodes from ganeti import serializer from ganeti import ssconf class LogicalUnit(object): """Logical Unit base class. Subclasses must follow these rules: - implement ExpandNames - implement CheckPrereq - implement Exec - implement BuildHooksEnv - redefine HPATH and HTYPE - optionally redefine their run requirements: REQ_BGL: the LU needs to hold the Big Ganeti Lock exclusively Note that all commands require root permissions. """ HPATH = None HTYPE = None _OP_REQP = [] REQ_BGL = True def __init__(self, processor, op, context, rpc): """Constructor for LogicalUnit. This needs to be overriden in derived classes in order to check op validity. """ self.proc = processor self.op = op self.cfg = context.cfg self.context = context self.rpc = rpc # Dicts used to declare locking needs to mcpu self.needed_locks = None self.acquired_locks = {} self.share_locks = dict(((i, 0) for i in locking.LEVELS)) self.add_locks = {} self.remove_locks = {} # Used to force good behavior when calling helper functions self.recalculate_locks = {} self.__ssh = None # logging self.LogWarning = processor.LogWarning self.LogInfo = processor.LogInfo for attr_name in self._OP_REQP: attr_val = getattr(op, attr_name, None) if attr_val is None: raise errors.OpPrereqError("Required parameter '%s' missing" % attr_name) self.CheckArguments() def __GetSSH(self): """Returns the SshRunner object """ if not self.__ssh: self.__ssh = ssh.SshRunner(self.cfg.GetClusterName()) return self.__ssh ssh = property(fget=__GetSSH) def CheckArguments(self): """Check syntactic validity for the opcode arguments. This method is for doing a simple syntactic check and ensure validity of opcode parameters, without any cluster-related checks. While the same can be accomplished in ExpandNames and/or CheckPrereq, doing these separate is better because: - ExpandNames is left as as purely a lock-related function - CheckPrereq is run after we have aquired locks (and possible waited for them) The function is allowed to change the self.op attribute so that later methods can no longer worry about missing parameters. """ pass def ExpandNames(self): """Expand names for this LU. This method is called before starting to execute the opcode, and it should update all the parameters of the opcode to their canonical form (e.g. a short node name must be fully expanded after this method has successfully completed). This way locking, hooks, logging, ecc. can work correctly. LUs which implement this method must also populate the self.needed_locks member, as a dict with lock levels as keys, and a list of needed lock names as values. Rules: - use an empty dict if you don't need any lock - if you don't need any lock at a particular level omit that level - don't put anything for the BGL level - if you want all locks at a level use locking.ALL_SET as a value If you need to share locks (rather than acquire them exclusively) at one level you can modify self.share_locks, setting a true value (usually 1) for that level. By default locks are not shared. Examples:: # Acquire all nodes and one instance self.needed_locks = { locking.LEVEL_NODE: locking.ALL_SET, locking.LEVEL_INSTANCE: ['instance1.example.tld'], } # Acquire just two nodes self.needed_locks = { locking.LEVEL_NODE: ['node1.example.tld', 'node2.example.tld'], } # Acquire no locks self.needed_locks = {} # No, you can't leave it to the default value None """ # The implementation of this method is mandatory only if the new LU is # concurrent, so that old LUs don't need to be changed all at the same # time. if self.REQ_BGL: self.needed_locks = {} # Exclusive LUs don't need locks. else: raise NotImplementedError def DeclareLocks(self, level): """Declare LU locking needs for a level While most LUs can just declare their locking needs at ExpandNames time, sometimes there's the need to calculate some locks after having acquired the ones before. This function is called just before acquiring locks at a particular level, but after acquiring the ones at lower levels, and permits such calculations. It can be used to modify self.needed_locks, and by default it does nothing. This function is only called if you have something already set in self.needed_locks for the level. @param level: Locking level which is going to be locked @type level: member of ganeti.locking.LEVELS """ def CheckPrereq(self): """Check prerequisites for this LU. This method should check that the prerequisites for the execution of this LU are fulfilled. It can do internode communication, but it should be idempotent - no cluster or system changes are allowed. The method should raise errors.OpPrereqError in case something is not fulfilled. Its return value is ignored. This method should also update all the parameters of the opcode to their canonical form if it hasn't been done by ExpandNames before. """ raise NotImplementedError def Exec(self, feedback_fn): """Execute the LU. This method should implement the actual work. It should raise errors.OpExecError for failures that are somewhat dealt with in code, or expected. """ raise NotImplementedError def BuildHooksEnv(self): """Build hooks environment for this LU. This method should return a three-node tuple consisting of: a dict containing the environment that will be used for running the specific hook for this LU, a list of node names on which the hook should run before the execution, and a list of node names on which the hook should run after the execution. The keys of the dict must not have 'GANETI_' prefixed as this will be handled in the hooks runner. Also note additional keys will be added by the hooks runner. If the LU doesn't define any environment, an empty dict (and not None) should be returned. No nodes should be returned as an empty list (and not None). Note that if the HPATH for a LU class is None, this function will not be called. """ raise NotImplementedError def HooksCallBack(self, phase, hook_results, feedback_fn, lu_result): """Notify the LU about the results of its hooks. This method is called every time a hooks phase is executed, and notifies the Logical Unit about the hooks' result. The LU can then use it to alter its result based on the hooks. By default the method does nothing and the previous result is passed back unchanged but any LU can define it if it wants to use the local cluster hook-scripts somehow. @param phase: one of L{constants.HOOKS_PHASE_POST} or L{constants.HOOKS_PHASE_PRE}; it denotes the hooks phase @param hook_results: the results of the multi-node hooks rpc call @param feedback_fn: function used send feedback back to the caller @param lu_result: the previous Exec result this LU had, or None in the PRE phase @return: the new Exec result, based on the previous result and hook results """ return lu_result def _ExpandAndLockInstance(self): """Helper function to expand and lock an instance. Many LUs that work on an instance take its name in self.op.instance_name and need to expand it and then declare the expanded name for locking. This function does it, and then updates self.op.instance_name to the expanded name. It also initializes needed_locks as a dict, if this hasn't been done before. """ if self.needed_locks is None: self.needed_locks = {} else: assert locking.LEVEL_INSTANCE not in self.needed_locks, \ "_ExpandAndLockInstance called with instance-level locks set" expanded_name = self.cfg.ExpandInstanceName(self.op.instance_name) if expanded_name is None: raise errors.OpPrereqError("Instance '%s' not known" % self.op.instance_name) self.needed_locks[locking.LEVEL_INSTANCE] = expanded_name self.op.instance_name = expanded_name def _LockInstancesNodes(self, primary_only=False): """Helper function to declare instances' nodes for locking. This function should be called after locking one or more instances to lock their nodes. Its effect is populating self.needed_locks[locking.LEVEL_NODE] with all primary or secondary nodes for instances already locked and present in self.needed_locks[locking.LEVEL_INSTANCE]. It should be called from DeclareLocks, and for safety only works if self.recalculate_locks[locking.LEVEL_NODE] is set. In the future it may grow parameters to just lock some instance's nodes, or to just lock primaries or secondary nodes, if needed. If should be called in DeclareLocks in a way similar to:: if level == locking.LEVEL_NODE: self._LockInstancesNodes() @type primary_only: boolean @param primary_only: only lock primary nodes of locked instances """ assert locking.LEVEL_NODE in self.recalculate_locks, \ "_LockInstancesNodes helper function called with no nodes to recalculate" # TODO: check if we're really been called with the instance locks held # For now we'll replace self.needed_locks[locking.LEVEL_NODE], but in the # future we might want to have different behaviors depending on the value # of self.recalculate_locks[locking.LEVEL_NODE] wanted_nodes = [] for instance_name in self.acquired_locks[locking.LEVEL_INSTANCE]: instance = self.context.cfg.GetInstanceInfo(instance_name) wanted_nodes.append(instance.primary_node) if not primary_only: wanted_nodes.extend(instance.secondary_nodes) if self.recalculate_locks[locking.LEVEL_NODE] == constants.LOCKS_REPLACE: self.needed_locks[locking.LEVEL_NODE] = wanted_nodes elif self.recalculate_locks[locking.LEVEL_NODE] == constants.LOCKS_APPEND: self.needed_locks[locking.LEVEL_NODE].extend(wanted_nodes) del self.recalculate_locks[locking.LEVEL_NODE] class NoHooksLU(LogicalUnit): """Simple LU which runs no hooks. This LU is intended as a parent for other LogicalUnits which will run no hooks, in order to reduce duplicate code. """ HPATH = None HTYPE = None def _GetWantedNodes(lu, nodes): """Returns list of checked and expanded node names. @type lu: L{LogicalUnit} @param lu: the logical unit on whose behalf we execute @type nodes: list @param nodes: list of node names or None for all nodes @rtype: list @return: the list of nodes, sorted @raise errors.OpProgrammerError: if the nodes parameter is wrong type """ if not isinstance(nodes, list): raise errors.OpPrereqError("Invalid argument type 'nodes'") if not nodes: raise errors.ProgrammerError("_GetWantedNodes should only be called with a" " non-empty list of nodes whose name is to be expanded.") wanted = [] for name in nodes: node = lu.cfg.ExpandNodeName(name) if node is None: raise errors.OpPrereqError("No such node name '%s'" % name) wanted.append(node) return utils.NiceSort(wanted) def _GetWantedInstances(lu, instances): """Returns list of checked and expanded instance names. @type lu: L{LogicalUnit} @param lu: the logical unit on whose behalf we execute @type instances: list @param instances: list of instance names or None for all instances @rtype: list @return: the list of instances, sorted @raise errors.OpPrereqError: if the instances parameter is wrong type @raise errors.OpPrereqError: if any of the passed instances is not found """ if not isinstance(instances, list): raise errors.OpPrereqError("Invalid argument type 'instances'") if instances: wanted = [] for name in instances: instance = lu.cfg.ExpandInstanceName(name) if instance is None: raise errors.OpPrereqError("No such instance name '%s'" % name) wanted.append(instance) else: wanted = utils.NiceSort(lu.cfg.GetInstanceList()) return wanted def _CheckOutputFields(static, dynamic, selected): """Checks whether all selected fields are valid. @type static: L{utils.FieldSet} @param static: static fields set @type dynamic: L{utils.FieldSet} @param dynamic: dynamic fields set """ f = utils.FieldSet() f.Extend(static) f.Extend(dynamic) delta = f.NonMatching(selected) if delta: raise errors.OpPrereqError("Unknown output fields selected: %s" % ",".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 node is offline """ if lu.cfg.GetNodeInfo(node).offline: raise errors.OpPrereqError("Can't use offline node %s" % node) def _CheckNodeNotDrained(lu, node): """Ensure that a given node is not drained. @param lu: the LU on behalf of which we make the check @param node: the node to check @raise errors.OpPrereqError: if the node is drained """ if lu.cfg.GetNodeInfo(node).drained: raise errors.OpPrereqError("Can't use drained node %s" % node) def _BuildInstanceHookEnv(name, primary_node, secondary_nodes, os_type, status, memory, vcpus, nics): """Builds instance related env variables for hooks This builds the hook environment from individual variables. @type name: string @param name: the name of the instance @type primary_node: string @param primary_node: the name of the instance's primary node @type secondary_nodes: list @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: boolean @param status: the should_run status of the instance @type memory: string @param memory: the memory size of the instance @type vcpus: string @param vcpus: the count of VCPUs the instance has @type nics: list @param nics: list of tuples (ip, bridge, mac) representing the NICs the instance has @rtype: dict @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": str_status, "INSTANCE_MEMORY": memory, "INSTANCE_VCPUS": vcpus, } if nics: nic_count = len(nics) for idx, (ip, bridge, mac) in enumerate(nics): if ip is None: ip = "" env["INSTANCE_NIC%d_IP" % idx] = ip env["INSTANCE_NIC%d_BRIDGE" % idx] = bridge env["INSTANCE_NIC%d_HWADDR" % idx] = mac else: nic_count = 0 env["INSTANCE_NIC_COUNT"] = nic_count return env def _BuildInstanceHookEnvByObject(lu, instance, override=None): """Builds instance related env variables for hooks from an object. @type lu: L{LogicalUnit} @param lu: the logical unit on whose behalf we execute @type instance: L{objects.Instance} @param instance: the instance for which we should build the environment @type override: dict @param override: dictionary with key/values that will override our values @rtype: dict @return: the hook environment dictionary """ bep = lu.cfg.GetClusterInfo().FillBE(instance) args = { 'name': instance.name, 'primary_node': instance.primary_node, 'secondary_nodes': instance.secondary_nodes, 'os_type': 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], } if override: args.update(override) 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. """ # check bridges existance brlist = [nic.bridge for nic in instance.nics] result = lu.rpc.call_bridges_exist(instance.primary_node, brlist) result.Raise() if not result.data: raise errors.OpPrereqError("One or more target bridges %s does not" " exist on destination node '%s'" % (brlist, instance.primary_node)) class LUDestroyCluster(NoHooksLU): """Logical unit for destroying the cluster. """ _OP_REQP = [] def CheckPrereq(self): """Check prerequisites. This checks whether the cluster is empty. Any errors are signalled by raising errors.OpPrereqError. """ master = self.cfg.GetMasterNode() nodelist = self.cfg.GetNodeList() if len(nodelist) != 1 or nodelist[0] != master: raise errors.OpPrereqError("There are still %d node(s) in" " this cluster." % (len(nodelist) - 1)) instancelist = self.cfg.GetInstanceList() if instancelist: raise errors.OpPrereqError("There are still %d instance(s) in" " this cluster." % len(instancelist)) def Exec(self, feedback_fn): """Destroys the cluster. """ master = self.cfg.GetMasterNode() result = self.rpc.call_node_stop_master(master, False) result.Raise() if not result.data: raise errors.OpExecError("Could not disable the master role") priv_key, pub_key, _ = ssh.GetUserFiles(constants.GANETI_RUNAS) utils.CreateBackup(priv_key) utils.CreateBackup(pub_key) return master class LUVerifyCluster(LogicalUnit): """Verifies the cluster status. """ HPATH = "cluster-verify" HTYPE = constants.HTYPE_CLUSTER _OP_REQP = ["skip_checks"] REQ_BGL = False def ExpandNames(self): self.needed_locks = { locking.LEVEL_NODE: locking.ALL_SET, locking.LEVEL_INSTANCE: locking.ALL_SET, } 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, drbd_map): """Run multiple tests against a node. Test list: - compares ganeti version - checks vg existance and size > 20G - checks config file checksum - checks ssh to other nodes @type nodeinfo: L{objects.Node} @param nodeinfo: the node to check @param file_list: required list of files @param local_cksum: dictionary of local files and their checksums @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 # main result, node_result should be a non-empty dict if not node_result or not isinstance(node_result, dict): feedback_fn(" - ERROR: unable to verify node %s." % (node,)) return True # compares ganeti version local_version = constants.PROTOCOL_VERSION remote_version = node_result.get('version', None) 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[0]: feedback_fn(" - ERROR: incompatible protocol versions: master %s," " node %s %s" % (local_version, node, remote_version[0])) return True # 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." % (node,)) bad = True else: vgstatus = utils.CheckVolumeGroupSize(vglist, self.cfg.GetVGName(), constants.MIN_VG_SIZE) if vgstatus: feedback_fn(" - ERROR: %s on node %s" % (vgstatus, node)) bad = True # checks config file checksum remote_cksum = node_result.get(constants.NV_FILELIST, None) if not isinstance(remote_cksum, dict): bad = True feedback_fn(" - ERROR: node hasn't returned file checksum data") else: for file_name in file_list: node_is_mc = nodeinfo.master_candidate must_have_file = file_name not in master_files if file_name not in remote_cksum: if node_is_mc or must_have_file: bad = True feedback_fn(" - ERROR: file '%s' missing" % file_name) elif remote_cksum[file_name] != local_cksum[file_name]: if node_is_mc or must_have_file: bad = True feedback_fn(" - ERROR: file '%s' has wrong checksum" % file_name) else: # not candidate and this is not a must-have file bad = True feedback_fn(" - ERROR: non master-candidate has old/wrong file" " '%s'" % file_name) else: # all good, except non-master/non-must have combination if not node_is_mc and not must_have_file: feedback_fn(" - ERROR: file '%s' should not exist on non master" " candidates" % file_name) # checks ssh to any if constants.NV_NODELIST not in node_result: bad = True feedback_fn(" - ERROR: node hasn't returned node ssh connectivity data") else: if node_result[constants.NV_NODELIST]: bad = True for node in node_result[constants.NV_NODELIST]: feedback_fn(" - ERROR: ssh communication with node '%s': %s" % (node, node_result[constants.NV_NODELIST][node])) if constants.NV_NODENETTEST not in node_result: bad = True feedback_fn(" - ERROR: node hasn't returned node tcp connectivity data") else: if node_result[constants.NV_NODENETTEST]: bad = True nlist = utils.NiceSort(node_result[constants.NV_NODENETTEST].keys()) for node in nlist: feedback_fn(" - ERROR: tcp communication with node '%s': %s" % (node, node_result[constants.NV_NODENETTEST][node])) hyp_result = node_result.get(constants.NV_HYPERVISOR, None) if isinstance(hyp_result, dict): for hv_name, hv_result in hyp_result.iteritems(): 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, []) if not isinstance(used_minors, (tuple, list)): feedback_fn(" - ERROR: cannot parse drbd status file: %s" % str(used_minors)) else: 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, n_offline): """Verify an instance. This function checks to see if the required block devices are available on the instance's node. """ bad = False node_current = instanceconfig.primary_node node_vol_should = {} 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 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 for node in node_instance: if (not node == node_current): if instance in node_instance[node]: feedback_fn(" - ERROR: instance %s should not run on node %s" % (instance, node)) bad = True return bad def _VerifyOrphanVolumes(self, node_vol_should, node_vol_is, feedback_fn): """Verify if there are any unknown volumes in the cluster. The .os, .swap and backup volumes are ignored. All other volumes are reported as unknown. """ bad = False for node in node_vol_is: for volume in node_vol_is[node]: if node not in node_vol_should or volume not in node_vol_should[node]: feedback_fn(" - ERROR: volume %s on node %s should not exist" % (volume, node)) bad = True return bad def _VerifyOrphanInstances(self, instancelist, node_instance, feedback_fn): """Verify the list of running instances. This checks what instances are running but unknown to the cluster. """ bad = False for node in node_instance: for runninginstance in node_instance[node]: if runninginstance not in instancelist: feedback_fn(" - ERROR: instance %s on node %s should not exist" % (runninginstance, node)) bad = True return bad def _VerifyNPlusOneMemory(self, node_info, instance_cfg, feedback_fn): """Verify N+1 Memory Resilience. Check that if one single node dies we can still start all the instances it was primary for. """ bad = False for node, nodeinfo in node_info.iteritems(): # This code checks that every node which is now listed as secondary has # enough memory to host all instances it is supposed to should a single # other node in the cluster fail. # FIXME: not ready for failover to an arbitrary node # FIXME: does not support file-backed instances # WARNING: we currently take into account down instances as well as up # ones, considering that even if they're down someone might want to start # them even in the event of a node failure. for prinode, instances in nodeinfo['sinst-by-pnode'].iteritems(): needed_mem = 0 for instance in instances: bep = self.cfg.GetClusterInfo().FillBE(instance_cfg[instance]) if bep[constants.BE_AUTO_BALANCE]: needed_mem += bep[constants.BE_MEMORY] if nodeinfo['mfree'] < needed_mem: feedback_fn(" - ERROR: not enough memory on node %s to accomodate" " failovers should node %s fail" % (node, prinode)) bad = True return bad def CheckPrereq(self): """Check prerequisites. Transform the list of checks we're going to skip into a set and check that all its members are valid. """ self.skip_set = frozenset(self.op.skip_checks) if not constants.VERIFY_OPTIONAL_CHECKS.issuperset(self.skip_set): raise errors.OpPrereqError("Invalid checks to be skipped specified") def BuildHooksEnv(self): """Build hooks env. Cluster-Verify hooks just rone in the post phase and their failure makes the output be logged in the verify output and the verification to fail. """ all_nodes = self.cfg.GetNodeList() # TODO: populate the environment with useful information for verify hooks env = {} return env, [], all_nodes def Exec(self, feedback_fn): """Verify integrity of cluster, performing various test on nodes. """ bad = False feedback_fn("* Verifying global settings") for msg in self.cfg.VerifyConfig(): feedback_fn(" - ERROR: %s" % msg) vg_name = self.cfg.GetVGName() hypervisors = self.cfg.GetClusterInfo().enabled_hypervisors 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 n_drained = [] # List of nodes being drained node_volume = {} node_instance = {} node_info = {} instance_cfg = {} # FIXME: verify OS list # do local checksums master_files = [constants.CLUSTER_CONF_FILE] 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: [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 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: ntype = "master candidate" elif node_i.drained: ntype = "drained" n_drained.append(node) else: ntype = "regular" feedback_fn("* Verifying node %s (%s)" % (node, ntype)) if all_nvinfo[node].failed or not isinstance(nresult, dict): feedback_fn(" - ERROR: connection to %s failed" % (node,)) 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, node_drbd) bad = bad or result lvdata = nresult.get(constants.NV_LVLIST, "Missing LV data") if isinstance(lvdata, basestring): feedback_fn(" - ERROR: LVM problem on node %s: %s" % (node, utils.SafeEncode(lvdata))) bad = True node_volume[node] = {} elif not isinstance(lvdata, dict): feedback_fn(" - ERROR: connection to %s failed (lvlist)" % (node,)) bad = True continue else: node_volume[node] = lvdata # node_instance idata = nresult.get(constants.NV_INSTANCELIST, None) if not isinstance(idata, list): feedback_fn(" - ERROR: connection to %s failed (instancelist)" % (node,)) bad = True continue node_instance[node] = idata # node_info nodeinfo = nresult.get(constants.NV_HVINFO, None) if not isinstance(nodeinfo, dict): feedback_fn(" - ERROR: connection to %s failed (hvinfo)" % (node,)) bad = True continue try: node_info[node] = { "mfree": int(nodeinfo['memory_free']), "dfree": int(nresult[constants.NV_VGLIST][vg_name]), "pinst": [], "sinst": [], # dictionary holding all instances this node is secondary for, # grouped by their primary node. Each key is a cluster node, and each # value is a list of instances which have the key as primary and the # current node as secondary. this is handy to calculate N+1 memory # availability if you can only failover from a primary to its # secondary. "sinst-by-pnode": {}, } except ValueError: feedback_fn(" - ERROR: invalid value returned from node %s" % (node,)) bad = True continue node_vol_should = {} for instance in instancelist: feedback_fn("* Verifying instance %s" % instance) inst_config = instanceinfo[instance] result = self._VerifyInstance(instance, inst_config, node_volume, node_instance, feedback_fn, n_offline) bad = bad or result inst_nodes_offline = [] inst_config.MapLVsByNode(node_vol_should) instance_cfg[instance] = inst_config pnode = inst_config.primary_node if pnode in node_info: node_info[pnode]['pinst'].append(instance) 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 # supported either. # FIXME: does not support file-backed instances if len(inst_config.secondary_nodes) == 0: i_non_redundant.append(instance) elif len(inst_config.secondary_nodes) > 1: feedback_fn(" - WARNING: multiple secondaries for instance %s" % instance) if not cluster.FillBE(inst_config)[constants.BE_AUTO_BALANCE]: i_non_a_balanced.append(instance) for snode in inst_config.secondary_nodes: if snode in node_info: node_info[snode]['sinst'].append(instance) 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) 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) bad = bad or result feedback_fn("* Verifying remaining instances") result = self._VerifyOrphanInstances(instancelist, node_instance, feedback_fn) bad = bad or result if constants.VERIFY_NPLUSONE_MEM not in self.skip_set: feedback_fn("* Verifying N+1 Memory redundancy") result = self._VerifyNPlusOneMemory(node_info, instance_cfg, feedback_fn) bad = bad or result feedback_fn("* Other Notes") if i_non_redundant: feedback_fn(" - NOTICE: %d non-redundant instance(s) found." % len(i_non_redundant)) if i_non_a_balanced: 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)) if n_drained: feedback_fn(" - NOTICE: %d drained node(s) found." % len(n_drained)) return not bad def HooksCallBack(self, phase, hooks_results, feedback_fn, lu_result): """Analize the post-hooks' result This method analyses the hook result, handles it, and sends some nicely-formatted feedback back to the user. @param phase: one of L{constants.HOOKS_PHASE_POST} or L{constants.HOOKS_PHASE_PRE}; it denotes the hooks phase @param hooks_results: the results of the multi-node hooks rpc call @param feedback_fn: function used send feedback back to the caller @param lu_result: previous Exec result @return: the new Exec result, based on the previous result and hook results """ # We only really run POST phase hooks, and are only interested in # their results if phase == constants.HOOKS_PHASE_POST: # Used to change hooks' output to proper indentation indent_re = re.compile('^', re.M) feedback_fn("* Hooks Results") if not hooks_results: feedback_fn(" - ERROR: general communication failure") lu_result = 1 else: for node_name in hooks_results: 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 for script, hkr, output in res.data: if hkr == constants.HKR_FAIL: # The node header is only shown once, if there are # failing hooks on that node if show_node_header: feedback_fn(" Node %s:" % node_name) show_node_header = False feedback_fn(" ERROR: Script %s failed, output:" % script) output = indent_re.sub(' ', output) feedback_fn("%s" % output) lu_result = 1 return lu_result class LUVerifyDisks(NoHooksLU): """Verifies the cluster disks status. """ _OP_REQP = [] REQ_BGL = False def ExpandNames(self): self.needed_locks = { locking.LEVEL_NODE: locking.ALL_SET, locking.LEVEL_INSTANCE: locking.ALL_SET, } self.share_locks = dict(((i, 1) for i in locking.LEVELS)) def CheckPrereq(self): """Check prerequisites. This has no prerequisites. """ pass def Exec(self, feedback_fn): """Verify integrity of cluster disks. """ result = res_nodes, res_nlvm, res_instances, res_missing = [], {}, [], {} vg_name = self.cfg.GetVGName() nodes = utils.NiceSort(self.cfg.GetNodeList()) instances = [self.cfg.GetInstanceInfo(name) for name in self.cfg.GetInstanceList()] nv_dict = {} for inst in instances: inst_lvs = {} if (not inst.admin_up or inst.disk_template not in constants.DTS_NET_MIRROR): continue inst.MapLVsByNode(inst_lvs) # transform { iname: {node: [vol,],},} to {(node, vol): iname} for node, vol_list in inst_lvs.iteritems(): for vol in vol_list: nv_dict[(node, vol)] = inst if not nv_dict: return result node_lvs = self.rpc.call_volume_list(nodes, vg_name) to_act = set() for node in nodes: # node_volume lvs = node_lvs[node] if lvs.failed: if not lvs.offline: self.LogWarning("Connection to node %s failed: %s" % (node, lvs.data)) continue lvs = lvs.data if isinstance(lvs, basestring): logging.warning("Error enumerating LVs on node %s: %s", node, lvs) res_nlvm[node] = lvs elif not isinstance(lvs, dict): logging.warning("Connection to node %s failed or invalid data" " returned", node) res_nodes.append(node) continue for lv_name, (_, lv_inactive, lv_online) in lvs.iteritems(): inst = nv_dict.pop((node, lv_name), None) if (not lv_online and inst is not None and inst.name not in res_instances): res_instances.append(inst.name) # any leftover items in nv_dict are missing LVs, let's arrange the # data better for key, inst in nv_dict.iteritems(): if inst.name not in res_missing: res_missing[inst.name] = [] res_missing[inst.name].append(key) return result class LURenameCluster(LogicalUnit): """Rename the cluster. """ HPATH = "cluster-rename" HTYPE = constants.HTYPE_CLUSTER _OP_REQP = ["name"] def BuildHooksEnv(self): """Build hooks env. """ env = { "OP_TARGET": self.cfg.GetClusterName(), "NEW_NAME": self.op.name, } mn = self.cfg.GetMasterNode() return env, [mn], [mn] def CheckPrereq(self): """Verify that the passed name is a valid one. """ hostname = utils.HostInfo(self.op.name) new_name = hostname.name self.ip = new_ip = hostname.ip old_name = self.cfg.GetClusterName() old_ip = self.cfg.GetMasterIP() if new_name == old_name and new_ip == old_ip: raise errors.OpPrereqError("Neither the name nor the IP address of the" " cluster has changed") if new_ip != old_ip: if utils.TcpPing(new_ip, constants.DEFAULT_NODED_PORT): raise errors.OpPrereqError("The given cluster IP address (%s) is" " reachable on the network. Aborting." % new_ip) self.op.name = new_name def Exec(self, feedback_fn): """Rename the cluster. """ clustername = self.op.name ip = self.ip # shutdown the master IP master = self.cfg.GetMasterNode() result = self.rpc.call_node_stop_master(master, False) if result.failed or not result.data: raise errors.OpExecError("Could not disable the master role") try: cluster = self.cfg.GetClusterInfo() cluster.cluster_name = clustername cluster.master_ip = ip self.cfg.Update(cluster) # update the known hosts file ssh.WriteKnownHostsFile(self.cfg, constants.SSH_KNOWN_HOSTS_FILE) node_list = self.cfg.GetNodeList() try: node_list.remove(master) except ValueError: pass result = self.rpc.call_upload_file(node_list, 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", constants.SSH_KNOWN_HOSTS_FILE, to_node) finally: result = self.rpc.call_node_start_master(master, False) if result.failed or not result.data: self.LogWarning("Could not re-enable the master role on" " the master, please restart manually.") def _RecursiveCheckIfLVMBased(disk): """Check if the given disk or its children are lvm-based. @type disk: L{objects.Disk} @param disk: the disk to check @rtype: booleean @return: boolean indicating whether a LD_LV dev_type was found or not """ if disk.children: for chdisk in disk.children: if _RecursiveCheckIfLVMBased(chdisk): return True return disk.dev_type == constants.LD_LV class LUSetClusterParams(LogicalUnit): """Change the parameters of the cluster. """ HPATH = "cluster-modify" HTYPE = constants.HTYPE_CLUSTER _OP_REQP = [] REQ_BGL = False def CheckParameters(self): """Check parameters """ if not hasattr(self.op, "candidate_pool_size"): self.op.candidate_pool_size = None if self.op.candidate_pool_size is not None: try: self.op.candidate_pool_size = int(self.op.candidate_pool_size) except ValueError, err: raise errors.OpPrereqError("Invalid candidate_pool_size value: %s" % str(err)) if self.op.candidate_pool_size < 1: raise errors.OpPrereqError("At least one master candidate needed") def ExpandNames(self): # FIXME: in the future maybe other cluster params won't require checking on # all nodes to be modified. self.needed_locks = { locking.LEVEL_NODE: locking.ALL_SET, } self.share_locks[locking.LEVEL_NODE] = 1 def BuildHooksEnv(self): """Build hooks env. """ env = { "OP_TARGET": self.cfg.GetClusterName(), "NEW_VG_NAME": self.op.vg_name, } mn = self.cfg.GetMasterNode() return env, [mn], [mn] def CheckPrereq(self): """Check prerequisites. This checks whether the given params don't conflict and if the given volume group is valid. """ if self.op.vg_name is not None and not self.op.vg_name: instances = self.cfg.GetAllInstancesInfo().values() for inst in instances: for disk in inst.disks: if _RecursiveCheckIfLVMBased(disk): raise errors.OpPrereqError("Cannot disable lvm storage while" " lvm-based instances exist") node_list = self.acquired_locks[locking.LEVEL_NODE] # if vg_name not None, checks given volume group on all nodes if self.op.vg_name: vglist = self.rpc.call_vg_list(node_list) for node in node_list: if vglist[node].failed: # ignoring down node self.LogWarning("Node %s unreachable/error, ignoring" % node) continue vgstatus = utils.CheckVolumeGroupSize(vglist[node].data, self.op.vg_name, constants.MIN_VG_SIZE) if vgstatus: raise errors.OpPrereqError("Error on node '%s': %s" % (node, vgstatus)) self.cluster = cluster = self.cfg.GetClusterInfo() # validate beparams changes if self.op.beparams: utils.ForceDictType(self.op.beparams, constants.BES_PARAMETER_TYPES) self.new_beparams = cluster.FillDict( cluster.beparams[constants.BEGR_DEFAULT], self.op.beparams) # hypervisor list/parameters self.new_hvparams = cluster.FillDict(cluster.hvparams, {}) if self.op.hvparams: if not isinstance(self.op.hvparams, dict): raise errors.OpPrereqError("Invalid 'hvparams' parameter on input") for hv_name, hv_dict in self.op.hvparams.items(): if hv_name not in self.new_hvparams: self.new_hvparams[hv_name] = hv_dict else: self.new_hvparams[hv_name].update(hv_dict) if self.op.enabled_hypervisors is not None: self.hv_list = self.op.enabled_hypervisors else: self.hv_list = cluster.enabled_hypervisors if self.op.hvparams or self.op.enabled_hypervisors is not None: # either the enabled list has changed, or the parameters have, validate for hv_name, hv_params in self.new_hvparams.items(): if ((self.op.hvparams and hv_name in self.op.hvparams) or (self.op.enabled_hypervisors and hv_name in self.op.enabled_hypervisors)): # either this is a new hypervisor, or its parameters have changed hv_class = hypervisor.GetHypervisor(hv_name) utils.ForceDictType(hv_params, constants.HVS_PARAMETER_TYPES) hv_class.CheckParameterSyntax(hv_params) _CheckHVParams(self, node_list, hv_name, hv_params) def Exec(self, feedback_fn): """Change the parameters of the cluster. """ if self.op.vg_name is not None: if self.op.vg_name != self.cfg.GetVGName(): self.cfg.SetVGName(self.op.vg_name) else: feedback_fn("Cluster LVM configuration already in desired" " state, not changing") if self.op.hvparams: self.cluster.hvparams = self.new_hvparams if self.op.enabled_hypervisors is not None: self.cluster.enabled_hypervisors = self.op.enabled_hypervisors if self.op.beparams: self.cluster.beparams[constants.BEGR_DEFAULT] = self.new_beparams if self.op.candidate_pool_size is not None: self.cluster.candidate_pool_size = self.op.candidate_pool_size self.cfg.Update(self.cluster) # 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: _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): """Sleep and poll for an instance's disk to sync. """ if not instance.disks: return True if not oneshot: lu.proc.LogInfo("Waiting for instance %s to sync disks." % instance.name) node = instance.primary_node for dev in instance.disks: lu.cfg.SetDiskID(dev, node) retries = 0 while True: max_time = 0 done = True cumul_degraded = False rstats = lu.rpc.call_blockdev_getmirrorstatus(node, instance.disks) if rstats.failed or not rstats.data: lu.LogWarning("Can't get any data from node %s", node) retries += 1 if retries >= 10: raise errors.RemoteError("Can't contact node %s for mirror data," " aborting." % node) time.sleep(6) continue rstats = rstats.data retries = 0 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) continue # we ignore the ldisk parameter perc_done, est_time, is_degraded, _ = mstat cumul_degraded = cumul_degraded or (is_degraded and perc_done is None) if perc_done is not None: done = False if est_time is not None: rem_time = "%d estimated seconds remaining" % est_time max_time = est_time else: rem_time = "no time estimate" lu.proc.LogInfo("- device %s: %5.2f%% done, %s" % (instance.disks[i].iv_name, perc_done, rem_time)) if done or oneshot: break time.sleep(min(60, max_time)) if done: lu.proc.LogInfo("Instance %s's disks are in sync." % instance.name) return not cumul_degraded def _CheckDiskConsistency(lu, dev, node, on_primary, ldisk=False): """Check that mirrors are not degraded. 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). """ lu.cfg.SetDiskID(dev, node) if ldisk: idx = 6 else: idx = 5 result = True if on_primary or dev.AssembleOnSecondary(): rstats = lu.rpc.call_blockdev_find(node, dev) msg = rstats.RemoteFailMsg() if msg: lu.LogWarning("Can't find disk on node %s: %s", node, msg) result = False elif not rstats.payload: lu.LogWarning("Can't find disk on node %s", node) result = False else: result = result and (not rstats.payload[idx]) if dev.children: for child in dev.children: result = result and _CheckDiskConsistency(lu, child, node, on_primary) return result class LUDiagnoseOS(NoHooksLU): """Logical unit for OS diagnose/query. """ _OP_REQP = ["output_fields", "names"] REQ_BGL = False _FIELDS_STATIC = utils.FieldSet() _FIELDS_DYNAMIC = utils.FieldSet("name", "valid", "node_status") def ExpandNames(self): if self.op.names: raise errors.OpPrereqError("Selective OS query not supported") _CheckOutputFields(static=self._FIELDS_STATIC, dynamic=self._FIELDS_DYNAMIC, selected=self.op.output_fields) # Lock all nodes, in shared mode self.needed_locks = {} self.share_locks[locking.LEVEL_NODE] = 1 self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET def CheckPrereq(self): """Check prerequisites. """ @staticmethod def _DiagnoseByOS(node_list, rlist): """Remaps a per-node return list into an a per-os per-node dictionary @param node_list: a list with the names of all nodes @param rlist: a map with node names as keys and OS objects as values @rtype: dict @returns: a dictionary with osnames as keys and as value another map, with nodes as keys and list of OS objects as values, eg:: {"debian-etch": {"node1": [,...], "node2": [,]} } """ all_os = {} for node_name, nr in rlist.iteritems(): if nr.failed or not nr.data: continue for os_obj in nr.data: if os_obj.name not in all_os: # build a list of nodes for this os containing empty lists # for each node in node_list all_os[os_obj.name] = {} for nname in node_list: all_os[os_obj.name][nname] = [] all_os[os_obj.name][node_name].append(os_obj) return all_os def Exec(self, feedback_fn): """Compute the list of OSes. """ node_list = self.acquired_locks[locking.LEVEL_NODE] 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(valid_nodes, node_data) output = [] for os_name, os_data in pol.iteritems(): row = [] for field in self.op.output_fields: if field == "name": val = os_name elif field == "valid": val = utils.all([osl and osl[0] for osl in os_data.values()]) elif field == "node_status": val = {} for node_name, nos_list in os_data.iteritems(): val[node_name] = [(v.status, v.path) for v in nos_list] else: raise errors.ParameterError(field) row.append(val) output.append(row) return output class LURemoveNode(LogicalUnit): """Logical unit for removing a node. """ HPATH = "node-remove" HTYPE = constants.HTYPE_NODE _OP_REQP = ["node_name"] def BuildHooksEnv(self): """Build hooks env. This doesn't run on the target node in the pre phase as a failed node would then be impossible to remove. """ env = { "OP_TARGET": self.op.node_name, "NODE_NAME": self.op.node_name, } all_nodes = self.cfg.GetNodeList() all_nodes.remove(self.op.node_name) return env, all_nodes, all_nodes def CheckPrereq(self): """Check prerequisites. This checks: - the node exists in the configuration - it does not have primary or secondary instances - it's not the master Any errors are signalled by raising errors.OpPrereqError. """ node = self.cfg.GetNodeInfo(self.cfg.ExpandNodeName(self.op.node_name)) if node is None: raise errors.OpPrereqError, ("Node '%s' is unknown." % self.op.node_name) instance_list = self.cfg.GetInstanceList() masternode = self.cfg.GetMasterNode() if node.name == masternode: raise errors.OpPrereqError("Node is the master node," " you need to failover first.") for instance_name in instance_list: instance = self.cfg.GetInstanceInfo(instance_name) 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 def Exec(self, feedback_fn): """Removes the node from the cluster. """ node = self.node logging.info("Stopping the node daemon and removing configs from node %s", node.name) self.context.RemoveNode(node.name) self.rpc.call_node_leave_cluster(node.name) # Promote nodes to master candidate as needed _AdjustCandidatePool(self) class LUQueryNodes(NoHooksLU): """Logical unit for querying nodes. """ _OP_REQP = ["output_fields", "names", "use_locking"] REQ_BGL = False _FIELDS_DYNAMIC = utils.FieldSet( "dtotal", "dfree", "mtotal", "mnode", "mfree", "bootid", "ctotal", "cnodes", "csockets", ) _FIELDS_STATIC = utils.FieldSet( "name", "pinst_cnt", "sinst_cnt", "pinst_list", "sinst_list", "pip", "sip", "tags", "serial_no", "master_candidate", "master", "offline", "drained", ) def ExpandNames(self): _CheckOutputFields(static=self._FIELDS_STATIC, dynamic=self._FIELDS_DYNAMIC, selected=self.op.output_fields) self.needed_locks = {} self.share_locks[locking.LEVEL_NODE] = 1 if self.op.names: self.wanted = _GetWantedNodes(self, self.op.names) else: self.wanted = locking.ALL_SET self.do_node_query = self._FIELDS_STATIC.NonMatching(self.op.output_fields) self.do_locking = self.do_node_query and self.op.use_locking if self.do_locking: # if we don't request only static fields, we need to lock the nodes self.needed_locks[locking.LEVEL_NODE] = self.wanted def CheckPrereq(self): """Check prerequisites. """ # The validation of the node list is done in the _GetWantedNodes, # if non empty, and if empty, there's no validation to do pass def Exec(self, feedback_fn): """Computes the list of nodes and their attributes. """ all_info = self.cfg.GetAllNodesInfo() if self.do_locking: nodenames = self.acquired_locks[locking.LEVEL_NODE] elif self.wanted != locking.ALL_SET: nodenames = self.wanted missing = set(nodenames).difference(all_info.keys()) if missing: raise errors.OpExecError( "Some nodes were removed before retrieving their data: %s" % missing) else: nodenames = all_info.keys() nodenames = utils.NiceSort(nodenames) nodelist = [all_info[name] for name in nodenames] # begin data gathering if self.do_node_query: live_data = {} node_data = self.rpc.call_node_info(nodenames, self.cfg.GetVGName(), self.cfg.GetHypervisorType()) for name in nodenames: nodeinfo = node_data[name] if not nodeinfo.failed and nodeinfo.data: nodeinfo = nodeinfo.data fn = utils.TryConvert live_data[name] = { "mtotal": fn(int, nodeinfo.get('memory_total', None)), "mnode": fn(int, nodeinfo.get('memory_dom0', None)), "mfree": fn(int, nodeinfo.get('memory_free', None)), "dtotal": fn(int, nodeinfo.get('vg_size', None)), "dfree": fn(int, nodeinfo.get('vg_free', None)), "ctotal": fn(int, nodeinfo.get('cpu_total', None)), "bootid": nodeinfo.get('bootid', None), "cnodes": fn(int, nodeinfo.get('cpu_nodes', None)), "csockets": fn(int, nodeinfo.get('cpu_sockets', None)), } else: live_data[name] = {} else: live_data = dict.fromkeys(nodenames, {}) node_to_primary = dict([(name, set()) for name in nodenames]) node_to_secondary = dict([(name, set()) for name in nodenames]) inst_fields = frozenset(("pinst_cnt", "pinst_list", "sinst_cnt", "sinst_list")) if inst_fields & frozenset(self.op.output_fields): instancelist = self.cfg.GetInstanceList() for instance_name in instancelist: inst = self.cfg.GetInstanceInfo(instance_name) if inst.primary_node in node_to_primary: node_to_primary[inst.primary_node].add(inst.name) for secnode in inst.secondary_nodes: if secnode in node_to_secondary: node_to_secondary[secnode].add(inst.name) master_node = self.cfg.GetMasterNode() # end data gathering output = [] for node in nodelist: node_output = [] for field in self.op.output_fields: if field == "name": val = node.name elif field == "pinst_list": val = list(node_to_primary[node.name]) elif field == "sinst_list": val = list(node_to_secondary[node.name]) elif field == "pinst_cnt": val = len(node_to_primary[node.name]) elif field == "sinst_cnt": val = len(node_to_secondary[node.name]) elif field == "pip": val = node.primary_ip elif field == "sip": val = node.secondary_ip elif field == "tags": val = list(node.GetTags()) elif field == "serial_no": val = node.serial_no elif field == "master_candidate": val = node.master_candidate elif field == "master": val = node.name == master_node elif field == "offline": val = node.offline elif field == "drained": val = node.drained elif self._FIELDS_DYNAMIC.Matches(field): val = live_data[node.name].get(field, None) else: raise errors.ParameterError(field) node_output.append(val) output.append(node_output) return output class LUQueryNodeVolumes(NoHooksLU): """Logical unit for getting volumes on node(s). """ _OP_REQP = ["nodes", "output_fields"] REQ_BGL = False _FIELDS_DYNAMIC = utils.FieldSet("phys", "vg", "name", "size", "instance") _FIELDS_STATIC = utils.FieldSet("node") def ExpandNames(self): _CheckOutputFields(static=self._FIELDS_STATIC, dynamic=self._FIELDS_DYNAMIC, selected=self.op.output_fields) 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) def CheckPrereq(self): """Check prerequisites. This checks that the fields required are valid output fields. """ self.nodes = self.acquired_locks[locking.LEVEL_NODE] def Exec(self, feedback_fn): """Computes the list of nodes and their attributes. """ nodenames = self.nodes volumes = self.rpc.call_node_volumes(nodenames) ilist = [self.cfg.GetInstanceInfo(iname) for iname in self.cfg.GetInstanceList()] lv_by_node = dict([(inst, inst.MapLVsByNode()) for inst in ilist]) output = [] for node in nodenames: if node not in volumes or volumes[node].failed or not volumes[node].data: continue node_vols = volumes[node].data[:] node_vols.sort(key=lambda vol: vol['dev']) for vol in node_vols: node_output = [] for field in self.op.output_fields: if field == "node": val = node elif field == "phys": val = vol['dev'] elif field == "vg": val = vol['vg'] elif field == "name": val = vol['name'] elif field == "size": val = int(float(vol['size'])) elif field == "instance": for inst in ilist: if node not in lv_by_node[inst]: continue if vol['name'] in lv_by_node[inst][node]: val = inst.name break else: val = '-' else: raise errors.ParameterError(field) node_output.append(str(val)) output.append(node_output) return output class LUAddNode(LogicalUnit): """Logical unit for adding node to the cluster. """ HPATH = "node-add" HTYPE = constants.HTYPE_NODE _OP_REQP = ["node_name"] def BuildHooksEnv(self): """Build hooks env. This will run on all nodes before, and on all nodes + the new node after. """ env = { "OP_TARGET": self.op.node_name, "NODE_NAME": self.op.node_name, "NODE_PIP": self.op.primary_ip, "NODE_SIP": self.op.secondary_ip, } nodes_0 = self.cfg.GetNodeList() nodes_1 = nodes_0 + [self.op.node_name, ] return env, nodes_0, nodes_1 def CheckPrereq(self): """Check prerequisites. This checks: - the new node is not already in the config - it is resolvable - its parameters (single/dual homed) matches the cluster Any errors are signalled by raising errors.OpPrereqError. """ node_name = self.op.node_name cfg = self.cfg dns_data = utils.HostInfo(node_name) node = dns_data.name primary_ip = self.op.primary_ip = dns_data.ip secondary_ip = getattr(self.op, "secondary_ip", None) if secondary_ip is None: secondary_ip = primary_ip if not utils.IsValidIP(secondary_ip): raise errors.OpPrereqError("Invalid secondary IP given") self.op.secondary_ip = secondary_ip node_list = cfg.GetNodeList() if not self.op.readd and node in node_list: raise errors.OpPrereqError("Node %s is already in the configuration" % node) elif self.op.readd and node not in node_list: raise errors.OpPrereqError("Node %s is not in the configuration" % node) for existing_node_name in node_list: existing_node = cfg.GetNodeInfo(existing_node_name) if self.op.readd and node == existing_node_name: if (existing_node.primary_ip != primary_ip or existing_node.secondary_ip != secondary_ip): raise errors.OpPrereqError("Readded node doesn't have the same IP" " address configuration as before") continue if (existing_node.primary_ip == primary_ip or existing_node.secondary_ip == primary_ip or existing_node.primary_ip == secondary_ip or existing_node.secondary_ip == secondary_ip): raise errors.OpPrereqError("New node ip address(es) conflict with" " existing node %s" % existing_node.name) # check that the type of the node (single versus dual homed) is the # same as for the master myself = cfg.GetNodeInfo(self.cfg.GetMasterNode()) master_singlehomed = myself.secondary_ip == myself.primary_ip newbie_singlehomed = secondary_ip == primary_ip if master_singlehomed != newbie_singlehomed: if master_singlehomed: raise errors.OpPrereqError("The master has no private ip but the" " new node has one") else: raise errors.OpPrereqError("The master has a private ip but the" " new node doesn't have one") # checks reachablity if not utils.TcpPing(primary_ip, constants.DEFAULT_NODED_PORT): raise errors.OpPrereqError("Node not reachable by ping") if not newbie_singlehomed: # check reachability from my secondary ip to newbie's secondary ip if not utils.TcpPing(secondary_ip, constants.DEFAULT_NODED_PORT, source=myself.secondary_ip): raise errors.OpPrereqError("Node secondary ip not reachable by TCP" " based ping to noded port") cp_size = self.cfg.GetClusterInfo().candidate_pool_size mc_now, _ = self.cfg.GetMasterCandidateStats() master_candidate = mc_now < cp_size self.new_node = objects.Node(name=node, primary_ip=primary_ip, secondary_ip=secondary_ip, master_candidate=master_candidate, offline=False, drained=False) def Exec(self, feedback_fn): """Adds the new node to the cluster. """ new_node = self.new_node node = new_node.name # check connectivity result = self.rpc.call_version([node])[node] result.Raise() if result.data: if constants.PROTOCOL_VERSION == result.data: logging.info("Communication to node %s fine, sw version %s match", node, result.data) else: raise errors.OpExecError("Version mismatch master version %s," " node version %s" % (constants.PROTOCOL_VERSION, result.data)) else: raise errors.OpExecError("Cannot get version from the new node") # setup ssh on node logging.info("Copy ssh key to node %s", node) priv_key, pub_key, _ = ssh.GetUserFiles(constants.GANETI_RUNAS) keyarray = [] keyfiles = [constants.SSH_HOST_DSA_PRIV, constants.SSH_HOST_DSA_PUB, constants.SSH_HOST_RSA_PRIV, constants.SSH_HOST_RSA_PUB, priv_key, pub_key] for i in keyfiles: f = open(i, 'r') try: keyarray.append(f.read()) finally: f.close() result = self.rpc.call_node_add(node, keyarray[0], keyarray[1], keyarray[2], keyarray[3], keyarray[4], keyarray[5]) msg = result.RemoteFailMsg() if msg: raise errors.OpExecError("Cannot transfer ssh keys to the" " new node: %s" % msg) # Add node to our /etc/hosts, and add key to known_hosts utils.AddHostToEtcHosts(new_node.name) if new_node.secondary_ip != new_node.primary_ip: result = self.rpc.call_node_has_ip_address(new_node.name, new_node.secondary_ip) if result.failed or not result.data: raise errors.OpExecError("Node claims it doesn't have the secondary ip" " you gave (%s). Please fix and re-run this" " command." % new_node.secondary_ip) node_verify_list = [self.cfg.GetMasterNode()] node_verify_param = { 'nodelist': [node], # TODO: do a node-net-test as well? } result = self.rpc.call_node_verify(node_verify_list, node_verify_param, self.cfg.GetClusterName()) for verifier in node_verify_list: if result[verifier].failed or not result[verifier].data: raise errors.OpExecError("Cannot communicate with %s's node daemon" " for remote verification" % verifier) if result[verifier].data['nodelist']: for failed in result[verifier].data['nodelist']: feedback_fn("ssh/hostname verification failed %s -> %s" % (verifier, result[verifier].data['nodelist'][failed])) raise errors.OpExecError("ssh/hostname verification failed.") # Distribute updated /etc/hosts and known_hosts to all nodes, # including the node just added myself = self.cfg.GetNodeInfo(self.cfg.GetMasterNode()) dist_nodes = self.cfg.GetNodeList() if not self.op.readd: dist_nodes.append(node) if myself.name in dist_nodes: dist_nodes.remove(myself.name) logging.debug("Copying hosts and known_hosts to all nodes") for fname in (constants.ETC_HOSTS, constants.SSH_KNOWN_HOSTS_FILE): result = self.rpc.call_upload_file(dist_nodes, fname) 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) to_copy = [] enabled_hypervisors = self.cfg.GetClusterInfo().enabled_hypervisors if constants.HTS_COPY_VNC_PASSWORD.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]: logging.error("Could not copy file %s to node %s", fname, node) if self.op.readd: self.context.ReaddNode(new_node) else: self.context.AddNode(new_node) class LUSetNodeParams(LogicalUnit): """Modifies the parameters of a node. """ HPATH = "node-modify" HTYPE = constants.HTYPE_NODE _OP_REQP = ["node_name"] REQ_BGL = False def CheckArguments(self): node_name = self.cfg.ExpandNodeName(self.op.node_name) if node_name is None: raise errors.OpPrereqError("Invalid node name '%s'" % self.op.node_name) self.op.node_name = node_name _CheckBooleanOpField(self.op, 'master_candidate') _CheckBooleanOpField(self.op, 'offline') _CheckBooleanOpField(self.op, 'drained') all_mods = [self.op.offline, self.op.master_candidate, self.op.drained] if all_mods.count(None) == 3: raise errors.OpPrereqError("Please pass at least one modification") if all_mods.count(True) > 1: raise errors.OpPrereqError("Can't set the node into more than one" " state at the same time") def ExpandNames(self): self.needed_locks = {locking.LEVEL_NODE: self.op.node_name} def BuildHooksEnv(self): """Build hooks env. This runs on the master node. """ env = { "OP_TARGET": self.op.node_name, "MASTER_CANDIDATE": str(self.op.master_candidate), "OFFLINE": str(self.op.offline), "DRAINED": str(self.op.drained), } nl = [self.cfg.GetMasterNode(), self.op.node_name] return env, nl, nl def CheckPrereq(self): """Check prerequisites. This only checks the instance list against the existing names. """ node = self.node = self.cfg.GetNodeInfo(self.op.node_name) if ((self.op.master_candidate == False or self.op.offline == True or self.op.drained == 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, online and not drained") cp_size = self.cfg.GetClusterInfo().candidate_pool_size 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 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) or (node.drained and not self.op.drained == False))): raise errors.OpPrereqError("Node '%s' is offline or drained, can't set" " to master_candidate") return def Exec(self, feedback_fn): """Modifies a node. """ node = self.node result = [] changed_mc = False if self.op.offline is not None: node.offline = self.op.offline result.append(("offline", str(self.op.offline))) if self.op.offline == True: if node.master_candidate: node.master_candidate = False changed_mc = True result.append(("master_candidate", "auto-demotion due to offline")) if node.drained: node.drained = False result.append(("drained", "clear drained status due to offline")) if self.op.master_candidate is not None: node.master_candidate = self.op.master_candidate changed_mc = True result.append(("master_candidate", str(self.op.master_candidate))) if self.op.master_candidate == False: rrc = self.rpc.call_node_demote_from_mc(node.name) msg = rrc.RemoteFailMsg() if msg: self.LogWarning("Node failed to demote itself: %s" % msg) if self.op.drained is not None: node.drained = self.op.drained result.append(("drained", str(self.op.drained))) if self.op.drained == True: if node.master_candidate: node.master_candidate = False changed_mc = True result.append(("master_candidate", "auto-demotion due to drain")) if node.offline: node.offline = False result.append(("offline", "clear offline status due to drain")) # this will trigger configuration file update, if needed self.cfg.Update(node) # this will trigger job queue propagation or cleanup if changed_mc: self.context.ReaddNode(node) return result class LUQueryClusterInfo(NoHooksLU): """Query cluster configuration. """ _OP_REQP = [] REQ_BGL = False def ExpandNames(self): self.needed_locks = {} def CheckPrereq(self): """No prerequsites needed for this LU. """ pass def Exec(self, feedback_fn): """Return cluster config. """ cluster = self.cfg.GetClusterInfo() result = { "software_version": constants.RELEASE_VERSION, "protocol_version": constants.PROTOCOL_VERSION, "config_version": constants.CONFIG_VERSION, "os_api_version": constants.OS_API_VERSION, "export_version": constants.EXPORT_VERSION, "architecture": (platform.architecture()[0], platform.machine()), "name": cluster.cluster_name, "master": cluster.master_node, "default_hypervisor": cluster.default_hypervisor, "enabled_hypervisors": cluster.enabled_hypervisors, "hvparams": dict([(hypervisor, cluster.hvparams[hypervisor]) for hypervisor in cluster.enabled_hypervisors]), "beparams": cluster.beparams, "candidate_pool_size": cluster.candidate_pool_size, } return result class LUQueryConfigValues(NoHooksLU): """Return configuration values. """ _OP_REQP = [] REQ_BGL = False _FIELDS_DYNAMIC = utils.FieldSet() _FIELDS_STATIC = utils.FieldSet("cluster_name", "master_node", "drain_flag") def ExpandNames(self): self.needed_locks = {} _CheckOutputFields(static=self._FIELDS_STATIC, dynamic=self._FIELDS_DYNAMIC, selected=self.op.output_fields) def CheckPrereq(self): """No prerequisites. """ pass 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) else: raise errors.ParameterError(field) values.append(entry) return values class LUActivateInstanceDisks(NoHooksLU): """Bring up an instance's disks. """ _OP_REQP = ["instance_name"] 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 CheckPrereq(self): """Check prerequisites. This checks that the instance is in the cluster. """ 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. """ disks_ok, disks_info = _AssembleInstanceDisks(self, self.instance) if not disks_ok: raise errors.OpExecError("Cannot activate block devices") return disks_info def _AssembleInstanceDisks(lu, instance, ignore_secondaries=False): """Prepare the block devices for an instance. This sets up the block devices on all nodes. @type lu: L{LogicalUnit} @param lu: the logical unit on whose behalf we execute @type instance: L{objects.Instance} @param instance: the instance for whose disks we assemble @type ignore_secondaries: boolean @param ignore_secondaries: if true, errors on secondary nodes won't result in an error return from the function @return: False if the operation failed, otherwise a list of (host, instance_visible_name, node_visible_name) with the mapping from node devices to instance devices """ device_info = [] disks_ok = True iname = instance.name # With the two passes mechanism we try to reduce the window of # opportunity for the race condition of switching DRBD to primary # before handshaking occured, but we do not eliminate it # The proper fix would be to wait (with some limits) until the # connection has been made and drbd transitions from WFConnection # into any other network-connected state (Connected, SyncTarget, # SyncSource, etc.) # 1st pass, assemble on all nodes in secondary mode for inst_disk in instance.disks: for node, node_disk in inst_disk.ComputeNodeTree(instance.primary_node): lu.cfg.SetDiskID(node_disk, node) result = lu.rpc.call_blockdev_assemble(node, node_disk, iname, False) msg = result.RemoteFailMsg() if msg: 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: disks_ok = False # FIXME: race condition on drbd migration to primary # 2nd pass, do only the primary node for inst_disk in instance.disks: for node, node_disk in inst_disk.ComputeNodeTree(instance.primary_node): if node != instance.primary_node: continue lu.cfg.SetDiskID(node_disk, node) result = lu.rpc.call_blockdev_assemble(node, node_disk, iname, True) msg = result.RemoteFailMsg() if msg: lu.proc.LogWarning("Could not prepare block device %s on node %s" " (is_primary=True, pass=2): %s", inst_disk.iv_name, node, msg) disks_ok = False device_info.append((instance.primary_node, inst_disk.iv_name, result.payload)) # leave the disks configured for the primary node # this is a workaround that would be fixed better by # improving the logical/physical id handling for disk in instance.disks: lu.cfg.SetDiskID(disk, instance.primary_node) return disks_ok, device_info def _StartInstanceDisks(lu, instance, force): """Start the disks of an instance. """ disks_ok, dummy = _AssembleInstanceDisks(lu, instance, ignore_secondaries=force) if not disks_ok: _ShutdownInstanceDisks(lu, instance) if force is not None and not force: lu.proc.LogWarning("", hint="If the message above refers to a" " secondary node," " you can retry the operation using '--force'.") raise errors.OpExecError("Disk consistency error") class LUDeactivateInstanceDisks(NoHooksLU): """Shutdown an instance's disks. """ _OP_REQP = ["instance_name"] 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 CheckPrereq(self): """Check prerequisites. This checks that the instance is in the cluster. """ self.instance = self.cfg.GetInstanceInfo(self.op.instance_name) assert self.instance is not None, \ "Cannot retrieve locked instance %s" % self.op.instance_name def Exec(self, feedback_fn): """Deactivate the disks """ instance = self.instance _SafeShutdownInstanceDisks(self, instance) def _SafeShutdownInstanceDisks(lu, instance): """Shutdown block devices of an instance. This function checks if an instance is running, before calling _ShutdownInstanceDisks. """ ins_l = lu.rpc.call_instance_list([instance.primary_node], [instance.hypervisor]) ins_l = ins_l[instance.primary_node] if ins_l.failed or not isinstance(ins_l.data, list): raise errors.OpExecError("Can't contact node '%s'" % instance.primary_node) if instance.name in ins_l.data: raise errors.OpExecError("Instance is running, can't shutdown" " block devices.") _ShutdownInstanceDisks(lu, instance) def _ShutdownInstanceDisks(lu, instance, ignore_primary=False): """Shutdown block devices of an instance. This does the shutdown on all nodes of the instance. If the ignore_primary is false, errors on the primary node are ignored. """ all_result = True for disk in instance.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) msg = result.RemoteFailMsg() if msg: lu.LogWarning("Could not shutdown block device %s on node %s: %s", disk.iv_name, node, msg) if not ignore_primary or node != instance.primary_node: all_result = False return all_result 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 memory. In case the node has less memory or we cannot get the information from the node, this function raise an OpPrereqError exception. @type lu: C{LogicalUnit} @param lu: a logical unit from which we get configuration data @type node: C{str} @param node: the node to check @type reason: C{str} @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_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_name) nodeinfo[node].Raise() free_mem = nodeinfo[node].data.get('memory_free') if not isinstance(free_mem, int): raise errors.OpPrereqError("Can't compute free memory on node %s, result" " was '%s'" % (node, free_mem)) if requested > free_mem: raise errors.OpPrereqError("Not enough memory on node %s for %s:" " needed %s MiB, available %s MiB" % (node, reason, requested, free_mem)) class LUStartupInstance(LogicalUnit): """Starts an instance. """ HPATH = "instance-start" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name", "force"] REQ_BGL = False def ExpandNames(self): self._ExpandAndLockInstance() def BuildHooksEnv(self): """Build hooks env. This runs on master, primary and secondary nodes of the instance. """ env = { "FORCE": self.op.force, } env.update(_BuildInstanceHookEnvByObject(self, self.instance)) nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes) return env, nl, nl def CheckPrereq(self): """Check prerequisites. This checks that the instance is in the cluster. """ self.instance = 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, instance.primary_node) bep = self.cfg.GetClusterInfo().FillBE(instance) # check bridges existance _CheckInstanceBridgesExist(self, instance) _CheckNodeFreeMemory(self, instance.primary_node, "starting instance %s" % instance.name, bep[constants.BE_MEMORY], instance.hypervisor) def Exec(self, feedback_fn): """Start the instance. """ instance = self.instance force = self.op.force extra_args = getattr(self.op, "extra_args", "") self.cfg.MarkInstanceUp(instance.name) node_current = instance.primary_node _StartInstanceDisks(self, instance, force) result = self.rpc.call_instance_start(node_current, instance, extra_args) msg = result.RemoteFailMsg() if msg: _ShutdownInstanceDisks(self, instance) raise errors.OpExecError("Could not start instance: %s" % msg) class LURebootInstance(LogicalUnit): """Reboot an instance. """ HPATH = "instance-reboot" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name", "ignore_secondaries", "reboot_type"] REQ_BGL = False def ExpandNames(self): if self.op.reboot_type not in [constants.INSTANCE_REBOOT_SOFT, constants.INSTANCE_REBOOT_HARD, constants.INSTANCE_REBOOT_FULL]: raise errors.ParameterError("reboot type not in [%s, %s, %s]" % (constants.INSTANCE_REBOOT_SOFT, constants.INSTANCE_REBOOT_HARD, constants.INSTANCE_REBOOT_FULL)) self._ExpandAndLockInstance() def BuildHooksEnv(self): """Build hooks env. This runs on master, primary and secondary nodes of the instance. """ env = { "IGNORE_SECONDARIES": self.op.ignore_secondaries, } env.update(_BuildInstanceHookEnvByObject(self, self.instance)) nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes) return env, nl, nl def CheckPrereq(self): """Check prerequisites. This checks that the instance is in the cluster. """ self.instance = 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, instance.primary_node) # check bridges existance _CheckInstanceBridgesExist(self, instance) def Exec(self, feedback_fn): """Reboot the instance. """ instance = self.instance ignore_secondaries = self.op.ignore_secondaries reboot_type = self.op.reboot_type extra_args = getattr(self.op, "extra_args", "") node_current = instance.primary_node if reboot_type in [constants.INSTANCE_REBOOT_SOFT, constants.INSTANCE_REBOOT_HARD]: result = self.rpc.call_instance_reboot(node_current, instance, reboot_type, extra_args) msg = result.RemoteFailMsg() if msg: raise errors.OpExecError("Could not reboot instance: %s" % msg) else: result = self.rpc.call_instance_shutdown(node_current, instance) msg = result.RemoteFailMsg() if msg: raise errors.OpExecError("Could not shutdown instance for" " full reboot: %s" % msg) _ShutdownInstanceDisks(self, instance) _StartInstanceDisks(self, instance, ignore_secondaries) result = self.rpc.call_instance_start(node_current, instance, extra_args) msg = result.RemoteFailMsg() if msg: _ShutdownInstanceDisks(self, instance) raise errors.OpExecError("Could not start instance for" " full reboot: %s" % msg) self.cfg.MarkInstanceUp(instance.name) class LUShutdownInstance(LogicalUnit): """Shutdown an instance. """ HPATH = "instance-stop" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name"] REQ_BGL = False def ExpandNames(self): self._ExpandAndLockInstance() 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.all_nodes) return env, nl, nl def CheckPrereq(self): """Check prerequisites. This checks that the instance is in the cluster. """ 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. """ instance = self.instance node_current = instance.primary_node self.cfg.MarkInstanceDown(instance.name) result = self.rpc.call_instance_shutdown(node_current, instance) msg = result.RemoteFailMsg() if msg: self.proc.LogWarning("Could not shutdown instance: %s" % msg) _ShutdownInstanceDisks(self, instance) class LUReinstallInstance(LogicalUnit): """Reinstall an instance. """ HPATH = "instance-reinstall" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name"] REQ_BGL = False def ExpandNames(self): self._ExpandAndLockInstance() 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.all_nodes) return env, nl, nl def CheckPrereq(self): """Check prerequisites. This checks that the instance is in the cluster and is not running. """ 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.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, instance.name, instance.hypervisor) if remote_info.failed or remote_info.data: raise errors.OpPrereqError("Instance '%s' is running on the node %s" % (self.op.instance_name, instance.primary_node)) self.op.os_type = getattr(self.op, "os_type", None) if self.op.os_type is not None: # OS verification pnode = self.cfg.GetNodeInfo( self.cfg.ExpandNodeName(instance.primary_node)) if pnode is None: raise errors.OpPrereqError("Primary node '%s' is unknown" % self.op.pnode) result = self.rpc.call_os_get(pnode.name, self.op.os_type) result.Raise() if not isinstance(result.data, objects.OS): raise errors.OpPrereqError("OS '%s' not in supported OS list for" " primary node" % self.op.os_type) self.instance = instance def Exec(self, feedback_fn): """Reinstall the instance. """ inst = self.instance if self.op.os_type is not None: feedback_fn("Changing OS to '%s'..." % self.op.os_type) inst.os = self.op.os_type self.cfg.Update(inst) _StartInstanceDisks(self, inst, None) try: feedback_fn("Running the instance OS create scripts...") result = self.rpc.call_instance_os_add(inst.primary_node, inst) msg = result.RemoteFailMsg() if msg: raise errors.OpExecError("Could not install OS for instance %s" " on node %s: %s" % (inst.name, inst.primary_node, msg)) finally: _ShutdownInstanceDisks(self, inst) class LURenameInstance(LogicalUnit): """Rename an instance. """ HPATH = "instance-rename" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name", "new_name"] def BuildHooksEnv(self): """Build hooks env. This runs on master, primary and secondary nodes of the instance. """ env = _BuildInstanceHookEnvByObject(self, self.instance) env["INSTANCE_NEW_NAME"] = self.op.new_name nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes) return env, nl, nl def CheckPrereq(self): """Check prerequisites. This checks that the instance is in the cluster and is not running. """ 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) _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, instance.name, instance.hypervisor) remote_info.Raise() if remote_info.data: raise errors.OpPrereqError("Instance '%s' is running on the node %s" % (self.op.instance_name, instance.primary_node)) self.instance = instance # new name verification name_info = utils.HostInfo(self.op.new_name) self.op.new_name = new_name = name_info.name instance_list = self.cfg.GetInstanceList() if new_name in instance_list: raise errors.OpPrereqError("Instance '%s' is already in the cluster" % new_name) if not getattr(self.op, "ignore_ip", False): if utils.TcpPing(name_info.ip, constants.DEFAULT_NODED_PORT): raise errors.OpPrereqError("IP %s of instance %s already in use" % (name_info.ip, new_name)) def Exec(self, feedback_fn): """Reinstall the instance. """ inst = self.instance old_name = inst.name if inst.disk_template == constants.DT_FILE: old_file_storage_dir = os.path.dirname(inst.disks[0].logical_id[1]) self.cfg.RenameInstance(inst.name, self.op.new_name) # Change the instance lock. This is definitely safe while we hold the BGL self.context.glm.remove(locking.LEVEL_INSTANCE, old_name) self.context.glm.add(locking.LEVEL_INSTANCE, self.op.new_name) # re-read the instance from the configuration after rename inst = self.cfg.GetInstanceInfo(self.op.new_name) if inst.disk_template == constants.DT_FILE: new_file_storage_dir = os.path.dirname(inst.disks[0].logical_id[1]) result = self.rpc.call_file_storage_dir_rename(inst.primary_node, old_file_storage_dir, new_file_storage_dir) result.Raise() if not result.data: raise errors.OpExecError("Could not connect to node '%s' to rename" " directory '%s' to '%s' (but the instance" " has been renamed in Ganeti)" % ( inst.primary_node, old_file_storage_dir, new_file_storage_dir)) if not result.data[0]: raise errors.OpExecError("Could not rename directory '%s' to '%s'" " (but the instance has been renamed in" " Ganeti)" % (old_file_storage_dir, new_file_storage_dir)) _StartInstanceDisks(self, inst, None) try: result = self.rpc.call_instance_run_rename(inst.primary_node, inst, old_name) 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): %s" % (inst.name, inst.primary_node, msg)) self.proc.LogWarning(msg) finally: _ShutdownInstanceDisks(self, inst) class LURemoveInstance(LogicalUnit): """Remove an instance. """ HPATH = "instance-remove" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name", "ignore_failures"] 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 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()] return env, nl, nl def CheckPrereq(self): """Check prerequisites. This checks that the instance is in the cluster. """ self.instance = self.cfg.GetInstanceInfo(self.op.instance_name) assert self.instance is not None, \ "Cannot retrieve locked instance %s" % self.op.instance_name def Exec(self, feedback_fn): """Remove the instance. """ instance = self.instance logging.info("Shutting down instance %s on node %s", instance.name, instance.primary_node) result = self.rpc.call_instance_shutdown(instance.primary_node, instance) msg = result.RemoteFailMsg() if msg: if self.op.ignore_failures: feedback_fn("Warning: can't shutdown instance: %s" % msg) else: raise errors.OpExecError("Could not shutdown instance %s on" " node %s: %s" % (instance.name, instance.primary_node, msg)) logging.info("Removing block devices for instance %s", instance.name) if not _RemoveDisks(self, instance): if self.op.ignore_failures: feedback_fn("Warning: can't remove instance's disks") else: raise errors.OpExecError("Can't remove instance's disks") logging.info("Removing instance %s out of cluster config", instance.name) self.cfg.RemoveInstance(instance.name) self.remove_locks[locking.LEVEL_INSTANCE] = instance.name class LUQueryInstances(NoHooksLU): """Logical unit for querying instances. """ _OP_REQP = ["output_fields", "names", "use_locking"] REQ_BGL = False _FIELDS_STATIC = utils.FieldSet(*["name", "os", "pnode", "snodes", "admin_state", "disk_template", "ip", "mac", "bridge", "sda_size", "sdb_size", "vcpus", "tags", "network_port", "beparams", r"(disk)\.(size)/([0-9]+)", r"(disk)\.(sizes)", "disk_usage", r"(nic)\.(mac|ip|bridge)/([0-9]+)", r"(nic)\.(macs|ips|bridges)", r"(disk|nic)\.(count)", "serial_no", "hypervisor", "hvparams",] + ["hv/%s" % name for name in constants.HVS_PARAMETERS] + ["be/%s" % name for name in constants.BES_PARAMETERS]) _FIELDS_DYNAMIC = utils.FieldSet("oper_state", "oper_ram", "status") def ExpandNames(self): _CheckOutputFields(static=self._FIELDS_STATIC, dynamic=self._FIELDS_DYNAMIC, selected=self.op.output_fields) self.needed_locks = {} self.share_locks[locking.LEVEL_INSTANCE] = 1 self.share_locks[locking.LEVEL_NODE] = 1 if self.op.names: self.wanted = _GetWantedInstances(self, self.op.names) else: self.wanted = locking.ALL_SET self.do_node_query = self._FIELDS_STATIC.NonMatching(self.op.output_fields) self.do_locking = self.do_node_query and self.op.use_locking if self.do_locking: self.needed_locks[locking.LEVEL_INSTANCE] = self.wanted self.needed_locks[locking.LEVEL_NODE] = [] self.recalculate_locks[locking.LEVEL_NODE] = constants.LOCKS_REPLACE def DeclareLocks(self, level): if level == locking.LEVEL_NODE and self.do_locking: self._LockInstancesNodes() def CheckPrereq(self): """Check prerequisites. """ pass def Exec(self, feedback_fn): """Computes the list of nodes and their attributes. """ all_info = self.cfg.GetAllInstancesInfo() 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: # 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_list = [all_info[iname] for iname in instance_names] # begin data gathering nodes = frozenset([inst.primary_node for inst in instance_list]) hv_list = list(set([inst.hypervisor for inst in instance_list])) bad_nodes = [] off_nodes = [] if self.do_node_query: live_data = {} node_data = self.rpc.call_all_instances_info(nodes, hv_list) for name in nodes: result = node_data[name] if result.offline: # offline nodes will be in both lists off_nodes.append(name) if result.failed: bad_nodes.append(name) else: if result.data: live_data.update(result.data) # else no instance is alive else: live_data = dict([(name, {}) for name in instance_names]) # end data gathering HVPREFIX = "hv/" BEPREFIX = "be/" output = [] for instance in instance_list: iout = [] i_hv = self.cfg.GetClusterInfo().FillHV(instance) i_be = self.cfg.GetClusterInfo().FillBE(instance) for field in self.op.output_fields: st_match = self._FIELDS_STATIC.Matches(field) if field == "name": val = instance.name elif field == "os": val = instance.os elif field == "pnode": val = instance.primary_node elif field == "snodes": val = list(instance.secondary_nodes) elif field == "admin_state": val = instance.admin_up elif field == "oper_state": if instance.primary_node in bad_nodes: val = None else: val = bool(live_data.get(instance.name)) elif field == "status": if instance.primary_node in off_nodes: val = "ERROR_nodeoffline" elif instance.primary_node in bad_nodes: val = "ERROR_nodedown" else: running = bool(live_data.get(instance.name)) if running: if instance.admin_up: val = "running" else: val = "ERROR_up" else: if instance.admin_up: val = "ERROR_down" else: val = "ADMIN_down" elif field == "oper_ram": if instance.primary_node in bad_nodes: val = None elif instance.name in live_data: val = live_data[instance.name].get("memory", "?") else: val = "-" elif field == "disk_template": val = instance.disk_template elif field == "ip": val = instance.nics[0].ip elif field == "bridge": val = instance.nics[0].bridge elif field == "mac": val = instance.nics[0].mac elif field == "sda_size" or field == "sdb_size": idx = ord(field[2]) - ord('a') try: val = instance.FindDisk(idx).size except errors.OpPrereqError: val = None elif field == "disk_usage": # total disk usage per node disk_sizes = [{'size': disk.size} for disk in instance.disks] val = _ComputeDiskSize(instance.disk_template, disk_sizes) elif field == "tags": val = list(instance.GetTags()) elif field == "serial_no": val = instance.serial_no elif field == "network_port": val = instance.network_port elif field == "hypervisor": val = instance.hypervisor elif field == "hvparams": val = i_hv elif (field.startswith(HVPREFIX) and field[len(HVPREFIX):] in constants.HVS_PARAMETERS): val = i_hv.get(field[len(HVPREFIX):], None) elif field == "beparams": val = i_be elif (field.startswith(BEPREFIX) and field[len(BEPREFIX):] in constants.BES_PARAMETERS): val = i_be.get(field[len(BEPREFIX):], None) elif st_match and st_match.groups(): # matches a variable list st_groups = st_match.groups() if st_groups and st_groups[0] == "disk": if st_groups[1] == "count": val = len(instance.disks) elif st_groups[1] == "sizes": val = [disk.size for disk in instance.disks] elif st_groups[1] == "size": try: val = instance.FindDisk(st_groups[2]).size except errors.OpPrereqError: val = None else: assert False, "Unhandled disk parameter" elif st_groups[0] == "nic": if st_groups[1] == "count": val = len(instance.nics) elif st_groups[1] == "macs": val = [nic.mac for nic in instance.nics] elif st_groups[1] == "ips": val = [nic.ip for nic in instance.nics] elif st_groups[1] == "bridges": val = [nic.bridge for nic in instance.nics] else: # index-based item nic_idx = int(st_groups[2]) if nic_idx >= len(instance.nics): val = None else: if st_groups[1] == "mac": val = instance.nics[nic_idx].mac elif st_groups[1] == "ip": val = instance.nics[nic_idx].ip elif st_groups[1] == "bridge": val = instance.nics[nic_idx].bridge else: assert False, "Unhandled NIC parameter" else: assert False, "Unhandled variable parameter" else: raise errors.ParameterError(field) iout.append(val) output.append(iout) return output class LUFailoverInstance(LogicalUnit): """Failover an instance. """ HPATH = "instance-failover" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name", "ignore_consistency"] 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 BuildHooksEnv(self): """Build hooks env. This runs on master, primary and secondary nodes of the instance. """ env = { "IGNORE_CONSISTENCY": self.op.ignore_consistency, } env.update(_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. """ self.instance = instance = self.cfg.GetInstanceInfo(self.op.instance_name) assert self.instance is not None, \ "Cannot retrieve locked instance %s" % self.op.instance_name bep = self.cfg.GetClusterInfo().FillBE(instance) if instance.disk_template not in constants.DTS_NET_MIRROR: raise errors.OpPrereqError("Instance's disk layout is not" " network mirrored, cannot failover.") secondary_nodes = instance.secondary_nodes if not secondary_nodes: raise errors.ProgrammerError("no secondary node but using " "a mirrored disk template") target_node = secondary_nodes[0] _CheckNodeOnline(self, target_node) _CheckNodeNotDrained(self, target_node) # check memory requirements on the secondary node _CheckNodeFreeMemory(self, target_node, "failing over instance %s" % instance.name, bep[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) result.Raise() if not result.data: raise errors.OpPrereqError("One or more target bridges %s does not" " exist on destination node '%s'" % (brlist, target_node)) def Exec(self, feedback_fn): """Failover an instance. The failover is done by shutting it down on its present node and starting it on the secondary. """ instance = self.instance source_node = instance.primary_node target_node = instance.secondary_nodes[0] feedback_fn("* checking disk consistency between source and target") for dev in instance.disks: # for drbd, these are drbd over lvm if not _CheckDiskConsistency(self, dev, target_node, False): 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) feedback_fn("* shutting down instance on source node") logging.info("Shutting down instance %s on node %s", instance.name, source_node) result = self.rpc.call_instance_shutdown(source_node, instance) msg = result.RemoteFailMsg() if msg: if self.op.ignore_consistency: self.proc.LogWarning("Could not shutdown instance %s on node %s." " Proceeding anyway. Please make sure node" " %s is down. Error details: %s", instance.name, source_node, source_node, msg) else: raise errors.OpExecError("Could not shutdown instance %s on" " node %s: %s" % (instance.name, source_node, msg)) feedback_fn("* deactivating the instance's disks on source node") if not _ShutdownInstanceDisks(self, instance, ignore_primary=True): raise errors.OpExecError("Can't shut down the instance's disks.") instance.primary_node = target_node # distribute new instance config to the other nodes self.cfg.Update(instance) # Only start the instance if it's marked as 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) disks_ok, dummy = _AssembleInstanceDisks(self, instance, ignore_secondaries=True) if not disks_ok: _ShutdownInstanceDisks(self, instance) raise errors.OpExecError("Can't activate the instance's disks") feedback_fn("* starting the instance on the target node") result = self.rpc.call_instance_start(target_node, instance, None) msg = result.RemoteFailMsg() if msg: _ShutdownInstanceDisks(self, instance) raise errors.OpExecError("Could not start instance %s on node %s: %s" % (instance.name, target_node, msg)) class LUMigrateInstance(LogicalUnit): """Migrate an instance. This is migration without shutting down, compared to the failover, which is done with shutdown. """ HPATH = "instance-migrate" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name", "live", "cleanup"] 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 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.ConfigurationError("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: _CheckNodeNotDrained(self, target_node) 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.payload 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.payload # 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.BlockdevCreate} function where it specifies whether we run on primary or not, and it affects both the child assembly and the device own Open() execution """ if device.CreateOnSecondary(): force_create = True if device.children: for child in device.children: _CreateBlockDev(lu, node, instance, child, force_create, info, force_open) 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.BlockdevCreate} function where it specifies whether we run on primary or not, and it affects both the child assembly and the device own Open() execution """ lu.cfg.SetDiskID(device, node) 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 = result.payload def _GenerateUniqueNames(lu, exts): """Generate a suitable LV name. This will generate a logical volume name for the given instance. """ results = [] for val in exts: new_id = lu.cfg.GenerateUniqueID() results.append("%s%s" % (new_id, val)) return results def _GenerateDRBD8Branch(lu, primary, secondary, size, names, iv_name, p_minor, s_minor): """Generate a drbd8 device complete with its children. """ port = lu.cfg.AllocatePort() vgname = lu.cfg.GetVGName() shared_secret = lu.cfg.GenerateDRBDSecret() dev_data = objects.Disk(dev_type=constants.LD_LV, size=size, logical_id=(vgname, names[0])) dev_meta = objects.Disk(dev_type=constants.LD_LV, size=128, logical_id=(vgname, names[1])) 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) return drbd_dev def _GenerateDiskTemplate(lu, template_name, instance_name, primary_node, secondary_nodes, disk_info, file_storage_dir, file_driver, base_index): """Generate the entire disk layout for a given template type. """ #TODO: compute space requirements vgname = lu.cfg.GetVGName() disk_count = len(disk_info) disks = [] if template_name == constants.DT_DISKLESS: pass elif template_name == constants.DT_PLAIN: if len(secondary_nodes) != 0: raise errors.ProgrammerError("Wrong template configuration") names = _GenerateUniqueNames(lu, [".disk%d" % i for i in range(disk_count)]) for idx, disk in enumerate(disk_info): 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, mode=disk["mode"]) disks.append(disk_dev) elif template_name == constants.DT_DRBD8: 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) 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: raise errors.ProgrammerError("Wrong template configuration") for idx, disk in enumerate(disk_info): disk_index = idx + base_index disk_dev = objects.Disk(dev_type=constants.LD_FILE, size=disk["size"], iv_name="disk/%d" % disk_index, logical_id=(file_driver, "%s/disk%d" % (file_storage_dir, disk_index)), mode=disk["mode"]) disks.append(disk_dev) else: raise errors.ProgrammerError("Invalid disk template '%s'" % template_name) return disks def _GetInstanceInfoText(instance): """Compute that text that should be added to the disk's metadata. """ return "originstname+%s" % instance.name def _CreateDisks(lu, instance): """Create all disks for an instance. This abstracts away some work from AddInstance. @type lu: L{LogicalUnit} @param lu: the logical unit on whose behalf we execute @type instance: L{objects.Instance} @param instance: the instance whose disks we should create @rtype: boolean @return: the success of the creation """ 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(pnode, file_storage_dir) if result.failed or not result.data: raise errors.OpExecError("Could not connect to node '%s'" % pnode) if not result.data[0]: 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 for device in instance.disks: logging.info("Creating volume %s for instance %s", device.iv_name, instance.name) #HARDCODE for node in instance.all_nodes: f_create = node == pnode _CreateBlockDev(lu, node, instance, device, f_create, info, f_create) def _RemoveDisks(lu, instance): """Remove all disks for an instance. This abstracts away some work from `AddInstance()` and `RemoveInstance()`. Note that in case some of the devices couldn't be removed, the removal will continue with the other ones (compare with `_CreateDisks()`). @type lu: L{LogicalUnit} @param lu: the logical unit on whose behalf we execute @type instance: L{objects.Instance} @param instance: the instance whose disks we should remove @rtype: boolean @return: the success of the removal """ logging.info("Removing block devices for instance %s", instance.name) all_result = True for device in instance.disks: for node, disk in device.ComputeNodeTree(instance.primary_node): lu.cfg.SetDiskID(disk, node) msg = lu.rpc.call_blockdev_remove(node, disk).RemoteFailMsg() if msg: lu.LogWarning("Could not remove block device %s on node %s," " continuing anyway: %s", device.iv_name, node, msg) all_result = False 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_remove(instance.primary_node, file_storage_dir) if result.failed or not result.data: logging.error("Could not remove directory '%s'", file_storage_dir) all_result = False return all_result def _ComputeDiskSize(disk_template, disks): """Compute disk size requirements in the volume group """ # Required free disk space as a function of disk and swap space req_size_dict = { constants.DT_DISKLESS: None, constants.DT_PLAIN: sum(d["size"] for d in disks), # 128 MB are added for drbd metadata for each disk constants.DT_DRBD8: sum(d["size"] + 128 for d in disks), constants.DT_FILE: None, } if disk_template not in req_size_dict: raise errors.ProgrammerError("Disk template '%s' size requirement" " is unknown" % disk_template) return req_size_dict[disk_template] def _CheckHVParams(lu, nodenames, hvname, hvparams): """Hypervisor parameter validation. This function abstract the hypervisor parameter validation to be used in both instance create and instance modify. @type lu: L{LogicalUnit} @param lu: the logical unit for which we check @type nodenames: list @param nodenames: the list of nodes on which we should check @type hvname: string @param hvname: the name of the hypervisor we should use @type hvparams: dict @param hvparams: the parameters which we need to check @raise errors.OpPrereqError: if the parameters are not valid """ hvinfo = lu.rpc.call_hypervisor_validate_params(nodenames, hvname, hvparams) for node in nodenames: info = hvinfo[node] if info.offline: continue msg = info.RemoteFailMsg() if msg: raise errors.OpPrereqError("Hypervisor parameter validation failed:" " %s" % msg) class LUCreateInstance(LogicalUnit): """Create an instance. """ HPATH = "instance-add" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name", "disks", "disk_template", "mode", "start", "wait_for_sync", "ip_check", "nics", "hvparams", "beparams"] REQ_BGL = False def _ExpandNode(self, node): """Expands and checks one node name. """ node_full = self.cfg.ExpandNodeName(node) if node_full is None: raise errors.OpPrereqError("Unknown node %s" % node) return node_full def ExpandNames(self): """ExpandNames for CreateInstance. Figure out the right locks for instance creation. """ self.needed_locks = {} # set optional parameters to none if they don't exist for attr in ["pnode", "snode", "iallocator", "hypervisor"]: if not hasattr(self.op, attr): setattr(self.op, attr, None) # cheap checks, mostly valid constants given # verify creation mode if self.op.mode not in (constants.INSTANCE_CREATE, constants.INSTANCE_IMPORT): raise errors.OpPrereqError("Invalid instance creation mode '%s'" % self.op.mode) # disk template and mirror node verification if self.op.disk_template not in constants.DISK_TEMPLATES: raise errors.OpPrereqError("Invalid disk template name") if self.op.hypervisor is None: self.op.hypervisor = self.cfg.GetHypervisorType() cluster = self.cfg.GetClusterInfo() enabled_hvs = cluster.enabled_hypervisors if self.op.hypervisor not in enabled_hvs: raise errors.OpPrereqError("Selected hypervisor (%s) not enabled in the" " cluster (%s)" % (self.op.hypervisor, ",".join(enabled_hvs))) # check hypervisor parameter syntax (locally) utils.ForceDictType(self.op.hvparams, constants.HVS_PARAMETER_TYPES) filled_hvp = cluster.FillDict(cluster.hvparams[self.op.hypervisor], self.op.hvparams) hv_type = hypervisor.GetHypervisor(self.op.hypervisor) hv_type.CheckParameterSyntax(filled_hvp) # fill and remember the beparams dict utils.ForceDictType(self.op.beparams, constants.BES_PARAMETER_TYPES) self.be_full = cluster.FillDict(cluster.beparams[constants.BEGR_DEFAULT], self.op.beparams) #### instance parameters check # instance name verification hostname1 = utils.HostInfo(self.op.instance_name) self.op.instance_name = instance_name = hostname1.name # this is just a preventive check, but someone might still add this # instance in the meantime, and creation will fail at lock-add time if instance_name in self.cfg.GetInstanceList(): raise errors.OpPrereqError("Instance '%s' is already in the cluster" % instance_name) self.add_locks[locking.LEVEL_INSTANCE] = instance_name # NIC buildup self.nics = [] for nic in self.op.nics: # ip validity checks ip = nic.get("ip", None) if ip is None or ip.lower() == "none": nic_ip = None elif ip.lower() == constants.VALUE_AUTO: nic_ip = hostname1.ip else: if not utils.IsValidIP(ip): raise errors.OpPrereqError("Given IP address '%s' doesn't look" " like a valid IP" % ip) nic_ip = ip # MAC address verification mac = nic.get("mac", constants.VALUE_AUTO) if mac not in (constants.VALUE_AUTO, constants.VALUE_GENERATE): if not utils.IsValidMac(mac.lower()): raise errors.OpPrereqError("Invalid MAC address specified: %s" % mac) # bridge verification 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 self.disks = [] for disk in self.op.disks: mode = disk.get("mode", constants.DISK_RDWR) if mode not in constants.DISK_ACCESS_SET: raise errors.OpPrereqError("Invalid disk access mode '%s'" % mode) size = disk.get("size", None) if size is None: raise errors.OpPrereqError("Missing disk size") try: size = int(size) except ValueError: raise errors.OpPrereqError("Invalid disk size '%s'" % size) self.disks.append({"size": size, "mode": mode}) # used in CheckPrereq for ip ping check self.check_ip = hostname1.ip # file storage checks if (self.op.file_driver and not self.op.file_driver in constants.FILE_DRIVER): raise errors.OpPrereqError("Invalid file driver name '%s'" % self.op.file_driver) if self.op.file_storage_dir and os.path.isabs(self.op.file_storage_dir): raise errors.OpPrereqError("File storage directory path not absolute") ### Node/iallocator related checks if [self.op.iallocator, self.op.pnode].count(None) != 1: raise errors.OpPrereqError("One and only one of iallocator and primary" " node must be given") if self.op.iallocator: self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET else: self.op.pnode = self._ExpandNode(self.op.pnode) nodelist = [self.op.pnode] if self.op.snode is not None: self.op.snode = self._ExpandNode(self.op.snode) nodelist.append(self.op.snode) self.needed_locks[locking.LEVEL_NODE] = nodelist # in case of import lock the source node too if self.op.mode == constants.INSTANCE_IMPORT: src_node = getattr(self.op, "src_node", None) src_path = getattr(self.op, "src_path", None) if src_path is None: self.op.src_path = src_path = self.op.instance_name if src_node is None: self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET self.op.src_node = None if os.path.isabs(src_path): raise errors.OpPrereqError("Importing an instance from an absolute" " path requires a source node option.") else: self.op.src_node = src_node = self._ExpandNode(src_node) if self.needed_locks[locking.LEVEL_NODE] is not locking.ALL_SET: self.needed_locks[locking.LEVEL_NODE].append(src_node) if not os.path.isabs(src_path): self.op.src_path = src_path = \ os.path.join(constants.EXPORT_DIR, src_path) else: # INSTANCE_CREATE if getattr(self.op, "os_type", None) is None: raise errors.OpPrereqError("No guest OS specified") def _RunAllocator(self): """Run the allocator based on input opcode. """ nics = [n.ToDict() for n in self.nics] ial = IAllocator(self, mode=constants.IALLOCATOR_MODE_ALLOC, name=self.op.instance_name, disk_template=self.op.disk_template, tags=[], os=self.op.os_type, vcpus=self.be_full[constants.BE_VCPUS], mem_size=self.be_full[constants.BE_MEMORY], disks=self.disks, nics=nics, hypervisor=self.op.hypervisor, ) ial.Run(self.op.iallocator) if not ial.success: raise errors.OpPrereqError("Can't compute nodes using" " iallocator '%s': %s" % (self.op.iallocator, ial.info)) if len(ial.nodes) != ial.required_nodes: raise errors.OpPrereqError("iallocator '%s' returned invalid number" " of nodes (%s), required %s" % (self.op.iallocator, len(ial.nodes), ial.required_nodes)) self.op.pnode = ial.nodes[0] self.LogInfo("Selected nodes for instance %s via iallocator %s: %s", self.op.instance_name, self.op.iallocator, ", ".join(ial.nodes)) if ial.required_nodes == 2: self.op.snode = ial.nodes[1] def BuildHooksEnv(self): """Build hooks env. This runs on master, primary and secondary nodes of the instance. """ env = { "INSTANCE_DISK_TEMPLATE": self.op.disk_template, "INSTANCE_DISK_SIZE": ",".join(str(d["size"]) for d in self.disks), "INSTANCE_ADD_MODE": self.op.mode, } if self.op.mode == constants.INSTANCE_IMPORT: env["INSTANCE_SRC_NODE"] = self.op.src_node env["INSTANCE_SRC_PATH"] = self.op.src_path env["INSTANCE_SRC_IMAGES"] = self.src_images env.update(_BuildInstanceHookEnv(name=self.op.instance_name, primary_node=self.op.pnode, secondary_nodes=self.secondaries, status=self.op.start, os_type=self.op.os_type, memory=self.be_full[constants.BE_MEMORY], vcpus=self.be_full[constants.BE_VCPUS], nics=[(n.ip, n.bridge, n.mac) for n in self.nics], )) nl = ([self.cfg.GetMasterNode(), self.op.pnode] + self.secondaries) return env, nl, nl def CheckPrereq(self): """Check prerequisites. """ if (not self.cfg.GetVGName() and self.op.disk_template not in constants.DTS_NOT_LVM): raise errors.OpPrereqError("Cluster does not support lvm-based" " instances") if self.op.mode == constants.INSTANCE_IMPORT: src_node = self.op.src_node src_path = self.op.src_path if src_node is None: exp_list = self.rpc.call_export_list( self.acquired_locks[locking.LEVEL_NODE]) found = False for node in exp_list: if not exp_list[node].failed and src_path in exp_list[node].data: found = True self.op.src_node = src_node = node self.op.src_path = src_path = os.path.join(constants.EXPORT_DIR, src_path) break if not found: 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: raise errors.OpPrereqError("No export found in dir %s" % src_path) export_info = result.data if not export_info.has_section(constants.INISECT_EXP): raise errors.ProgrammerError("Corrupted export config") ei_version = export_info.get(constants.INISECT_EXP, 'version') if (int(ei_version) != constants.EXPORT_VERSION): raise errors.OpPrereqError("Wrong export version %s (wanted %d)" % (ei_version, constants.EXPORT_VERSION)) # Check that the new instance doesn't have less disks than the export instance_disks = len(self.disks) export_disks = export_info.getint(constants.INISECT_INS, 'disk_count') if instance_disks < export_disks: raise errors.OpPrereqError("Not enough disks to import." " (instance: %d, export: %d)" % (instance_disks, export_disks)) self.op.os_type = export_info.get(constants.INISECT_EXP, 'os') disk_images = [] for idx in range(export_disks): option = 'disk%d_dump' % idx if export_info.has_option(constants.INISECT_INS, option): # FIXME: are the old os-es, disk sizes, etc. useful? export_name = export_info.get(constants.INISECT_INS, option) image = os.path.join(src_path, export_name) disk_images.append(image) else: disk_images.append(False) self.src_images = disk_images old_name = export_info.get(constants.INISECT_INS, 'name') # FIXME: int() here could throw a ValueError on broken exports exp_nic_count = int(export_info.get(constants.INISECT_INS, 'nic_count')) if self.op.instance_name == old_name: for idx, nic in enumerate(self.nics): if nic.mac == constants.VALUE_AUTO and exp_nic_count >= idx: nic_mac_ini = 'nic%d_mac' % idx nic.mac = export_info.get(constants.INISECT_INS, nic_mac_ini) # ENDIF: self.op.mode == constants.INSTANCE_IMPORT # ip ping checks (we use the same ip that was resolved in ExpandNames) if self.op.start and not self.op.ip_check: raise errors.OpPrereqError("Cannot ignore IP address conflicts when" " adding an instance in start mode") if self.op.ip_check: if utils.TcpPing(self.check_ip, constants.DEFAULT_NODED_PORT): raise errors.OpPrereqError("IP %s of instance %s already in use" % (self.check_ip, self.op.instance_name)) #### mac address generation # By generating here the mac address both the allocator and the hooks get # the real final mac address rather than the 'auto' or 'generate' value. # There is a race condition between the generation and the instance object # creation, which means that we know the mac is valid now, but we're not # sure it will be when we actually add the instance. If things go bad # adding the instance will abort because of a duplicate mac, and the # creation job will fail. for nic in self.nics: if nic.mac in (constants.VALUE_AUTO, constants.VALUE_GENERATE): nic.mac = self.cfg.GenerateMAC() #### allocator run if self.op.iallocator is not None: self._RunAllocator() #### node related checks # check primary node 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) if pnode.drained: raise errors.OpPrereqError("Cannot use drained primary node '%s'" % pnode.name) self.secondaries = [] # mirror node verification if self.op.disk_template in constants.DTS_NET_MIRROR: if self.op.snode is None: raise errors.OpPrereqError("The networked disk templates need" " a mirror node") if self.op.snode == pnode.name: raise errors.OpPrereqError("The secondary node cannot be" " the primary node.") _CheckNodeOnline(self, self.op.snode) _CheckNodeNotDrained(self, self.op.snode) self.secondaries.append(self.op.snode) nodenames = [pnode.name] + self.secondaries req_size = _ComputeDiskSize(self.op.disk_template, self.disks) # Check lv size requirements if req_size is not None: nodeinfo = self.rpc.call_node_info(nodenames, self.cfg.GetVGName(), self.op.hypervisor) for node in nodenames: info = nodeinfo[node] info.Raise() info = info.data if not info: raise errors.OpPrereqError("Cannot get current information" " from node '%s'" % node) vg_free = info.get('vg_free', None) if not isinstance(vg_free, int): raise errors.OpPrereqError("Can't compute free disk space on" " node %s" % node) if req_size > info['vg_free']: raise errors.OpPrereqError("Not enough disk space on target node %s." " %d MB available, %d MB required" % (node, info['vg_free'], req_size)) _CheckHVParams(self, nodenames, self.op.hypervisor, self.op.hvparams) # os verification result = self.rpc.call_os_get(pnode.name, self.op.os_type) result.Raise() if not isinstance(result.data, objects.OS): raise errors.OpPrereqError("OS '%s' not in supported os list for" " primary node" % self.op.os_type) # bridge check on primary node bridges = [n.bridge for n in self.nics] result = self.rpc.call_bridges_exist(self.pnode.name, bridges) result.Raise() if not result.data: raise errors.OpPrereqError("One of the target bridges '%s' does not" " exist on destination node '%s'" % (",".join(bridges), pnode.name)) # memory check on primary node if self.op.start: _CheckNodeFreeMemory(self, self.pnode.name, "creating instance %s" % self.op.instance_name, self.be_full[constants.BE_MEMORY], self.op.hypervisor) def Exec(self, feedback_fn): """Create and add the instance to the cluster. """ instance = self.op.instance_name pnode_name = self.pnode.name ht_kind = self.op.hypervisor if ht_kind in constants.HTS_REQ_PORT: network_port = self.cfg.AllocatePort() else: network_port = None ##if self.op.vnc_bind_address is None: ## self.op.vnc_bind_address = constants.VNC_DEFAULT_BIND_ADDRESS # this is needed because os.path.join does not accept None arguments if self.op.file_storage_dir is None: string_file_storage_dir = "" else: string_file_storage_dir = self.op.file_storage_dir # build the full file storage dir path file_storage_dir = os.path.normpath(os.path.join( self.cfg.GetFileStorageDir(), string_file_storage_dir, instance)) disks = _GenerateDiskTemplate(self, self.op.disk_template, instance, pnode_name, self.secondaries, self.disks, file_storage_dir, self.op.file_driver, 0) iobj = objects.Instance(name=instance, os=self.op.os_type, primary_node=pnode_name, nics=self.nics, disks=disks, disk_template=self.op.disk_template, admin_up=False, network_port=network_port, beparams=self.op.beparams, hvparams=self.op.hvparams, hypervisor=self.op.hypervisor, ) feedback_fn("* creating instance disks...") 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) self.cfg.AddInstance(iobj) # 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] # Unlock all the nodes if self.op.mode == constants.INSTANCE_IMPORT: nodes_keep = [self.op.src_node] nodes_release = [node for node in self.acquired_locks[locking.LEVEL_NODE] if node != self.op.src_node] self.context.glm.release(locking.LEVEL_NODE, nodes_release) self.acquired_locks[locking.LEVEL_NODE] = nodes_keep else: self.context.glm.release(locking.LEVEL_NODE) del self.acquired_locks[locking.LEVEL_NODE] if self.op.wait_for_sync: disk_abort = not _WaitForSync(self, iobj) elif iobj.disk_template in constants.DTS_NET_MIRROR: # make sure the disks are not degraded (still sync-ing is ok) time.sleep(15) feedback_fn("* checking mirrors status") disk_abort = not _WaitForSync(self, iobj, oneshot=True) else: disk_abort = False if disk_abort: _RemoveDisks(self, iobj) self.cfg.RemoveInstance(iobj.name) # Make sure the instance lock gets removed self.remove_locks[locking.LEVEL_INSTANCE] = iobj.name raise errors.OpExecError("There are some degraded disks for" " this instance") feedback_fn("creating os for instance %s on node %s" % (instance, pnode_name)) if iobj.disk_template != constants.DT_DISKLESS: 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) msg = result.RemoteFailMsg() if msg: raise errors.OpExecError("Could not add os for instance %s" " on node %s: %s" % (instance, pnode_name, msg)) elif self.op.mode == constants.INSTANCE_IMPORT: feedback_fn("* running the instance OS import scripts...") src_node = self.op.src_node src_images = self.src_images cluster_name = self.cfg.GetClusterName() import_result = self.rpc.call_instance_os_import(pnode_name, iobj, src_node, src_images, cluster_name) import_result.Raise() for idx, result in enumerate(import_result.data): if not result: self.LogWarning("Could not import the image %s for instance" " %s, disk %d, on node %s" % (src_images[idx], instance, idx, pnode_name)) else: # also checked in the prereq part raise errors.ProgrammerError("Unknown OS initialization mode '%s'" % self.op.mode) if self.op.start: iobj.admin_up = True self.cfg.Update(iobj) 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) msg = result.RemoteFailMsg() if msg: raise errors.OpExecError("Could not start instance: %s" % msg) class LUConnectConsole(NoHooksLU): """Connect to an instance's console. This is somewhat special in that it returns the command line that you need to run on the master node in order to connect to the console. """ _OP_REQP = ["instance_name"] REQ_BGL = False def ExpandNames(self): self._ExpandAndLockInstance() def CheckPrereq(self): """Check prerequisites. This checks that the instance is in the cluster. """ 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 """ instance = self.instance node = instance.primary_node node_insts = self.rpc.call_instance_list([node], [instance.hypervisor])[node] node_insts.Raise() if instance.name not in node_insts.data: raise errors.OpExecError("Instance %s is not running." % instance.name) logging.debug("Connecting to console of %s on %s", instance.name, node) hyper = hypervisor.GetHypervisor(instance.hypervisor) 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) class LUReplaceDisks(LogicalUnit): """Replace the disks of an instance. """ HPATH = "mirrors-replace" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name", "mode", "disks"] REQ_BGL = False def CheckArguments(self): if not hasattr(self.op, "remote_node"): self.op.remote_node = 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) if remote_node is None: 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: self.needed_locks[locking.LEVEL_NODE] = [] self.recalculate_locks[locking.LEVEL_NODE] = constants.LOCKS_REPLACE def DeclareLocks(self, level): # If we're not already locking all nodes in the set we have to declare the # instance's primary/secondary nodes. if (level == locking.LEVEL_NODE and self.needed_locks[locking.LEVEL_NODE] is not locking.ALL_SET): self._LockInstancesNodes() def _RunAllocator(self): """Compute a new secondary node using an IAllocator. """ ial = IAllocator(self, mode=constants.IALLOCATOR_MODE_RELOC, name=self.op.instance_name, relocate_from=[self.sec_node]) ial.Run(self.op.iallocator) if not ial.success: raise errors.OpPrereqError("Can't compute nodes using" " iallocator '%s': %s" % (self.op.iallocator, ial.info)) if len(ial.nodes) != ial.required_nodes: raise errors.OpPrereqError("iallocator '%s' returned invalid number" " of nodes (%s), required %s" % (len(ial.nodes), ial.required_nodes)) self.op.remote_node = ial.nodes[0] self.LogInfo("Selected new secondary for the instance: %s", self.op.remote_node) def BuildHooksEnv(self): """Build hooks env. This runs on the master, the primary and all the secondaries. """ env = { "MODE": self.op.mode, "NEW_SECONDARY": self.op.remote_node, "OLD_SECONDARY": self.instance.secondary_nodes[0], } env.update(_BuildInstanceHookEnvByObject(self, self.instance)) nl = [ self.cfg.GetMasterNode(), self.instance.primary_node, ] if self.op.remote_node is not None: nl.append(self.op.remote_node) return env, nl, nl def CheckPrereq(self): """Check prerequisites. This checks that the instance is in the cluster. """ instance = self.cfg.GetInstanceInfo(self.op.instance_name) assert instance is not None, \ "Cannot retrieve locked instance %s" % self.op.instance_name self.instance = instance 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," " expected one secondary but found %d" % len(instance.secondary_nodes)) self.sec_node = instance.secondary_nodes[0] if self.op.iallocator is not None: self._RunAllocator() remote_node = self.op.remote_node if remote_node is not None: self.remote_node_info = self.cfg.GetNodeInfo(remote_node) assert self.remote_node_info is not None, \ "Cannot retrieve locked node %s" % remote_node else: self.remote_node_info = None if remote_node == instance.primary_node: raise errors.OpPrereqError("The specified node is the primary node of" " the instance.") elif remote_node == self.sec_node: 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 _CheckNodeNotDrained(self, remote_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)) for disk_idx in self.op.disks: instance.FindDisk(disk_idx) def _ExecD8DiskOnly(self, feedback_fn): """Replace a disk on the primary or secondary for dbrd8. The algorithm for replace is quite complicated: 1. for each disk to be replaced: 1. create new LVs on the target node with unique names 1. detach old LVs from the drbd device 1. rename old LVs to name_replaced. 1. rename new LVs to old LVs 1. attach the new LVs (with the old names now) to the drbd device 1. wait for sync across all devices 1. for each modified disk: 1. remove old LVs (which have the name name_replaces.) Failures are not very well handled. """ steps_total = 6 warning, info = (self.proc.LogWarning, self.proc.LogInfo) instance = self.instance iv_names = {} vgname = self.cfg.GetVGName() # start of work cfg = self.cfg tgt_node = self.tgt_node oth_node = self.oth_node # Step: check device activation self.proc.LogStep(1, steps_total, "check device existence") info("checking volume groups") my_vg = cfg.GetVGName() results = self.rpc.call_vg_list([oth_node, tgt_node]) if not results: raise errors.OpExecError("Can't list volume groups on the nodes") for node in oth_node, tgt_node: res = results[node] if res.failed or not res.data or my_vg not in res.data: raise errors.OpExecError("Volume group '%s' not found on %s" % (my_vg, node)) for idx, dev in enumerate(instance.disks): if idx not in self.op.disks: continue for node in tgt_node, oth_node: info("checking disk/%d on %s" % (idx, node)) cfg.SetDiskID(dev, node) result = self.rpc.call_blockdev_find(node, dev) msg = result.RemoteFailMsg() if not msg and not result.payload: msg = "disk not found" if msg: raise errors.OpExecError("Can't find disk/%d on node %s: %s" % (idx, node, msg)) # Step: check other node consistency self.proc.LogStep(2, steps_total, "check peer consistency") for idx, dev in enumerate(instance.disks): if idx not in self.op.disks: continue info("checking disk/%d consistency on %s" % (idx, oth_node)) if not _CheckDiskConsistency(self, dev, oth_node, oth_node==instance.primary_node): raise errors.OpExecError("Peer node (%s) has degraded storage, unsafe" " to replace disks on this node (%s)" % (oth_node, tgt_node)) # Step: create new storage self.proc.LogStep(3, steps_total, "allocate new storage") for idx, dev in enumerate(instance.disks): if idx not in self.op.disks: continue size = dev.size cfg.SetDiskID(dev, tgt_node) lv_names = [".disk%d_%s" % (idx, suf) for suf in ["data", "meta"]] names = _GenerateUniqueNames(self, lv_names) lv_data = objects.Disk(dev_type=constants.LD_LV, size=size, logical_id=(vgname, names[0])) lv_meta = objects.Disk(dev_type=constants.LD_LV, size=128, logical_id=(vgname, names[1])) new_lvs = [lv_data, lv_meta] old_lvs = dev.children iv_names[dev.iv_name] = (dev, old_lvs, new_lvs) info("creating new local storage on %s for %s" % (tgt_node, dev.iv_name)) # we pass force_create=True to force the LVM creation for new_lv in new_lvs: _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") for dev, old_lvs, new_lvs in iv_names.itervalues(): info("detaching %s drbd from local storage" % dev.iv_name) result = self.rpc.call_blockdev_removechildren(tgt_node, dev, old_lvs) result.Raise() if not result.data: raise errors.OpExecError("Can't detach drbd from local storage on node" " %s for device %s" % (tgt_node, dev.iv_name)) #dev.children = [] #cfg.Update(instance) # ok, we created the new LVs, so now we know we have the needed # storage; as such, we proceed on the target node to rename # old_lv to _old, and new_lv to old_lv; note that we rename LVs # using the assumption that logical_id == physical_id (which in # turn is the unique_id on that node) # FIXME(iustin): use a better name for the replaced LVs temp_suffix = int(time.time()) ren_fn = lambda d, suff: (d.physical_id[0], d.physical_id[1] + "_replaced-%s" % suff) # build the rename list based on what LVs exist on the node rlist = [] for to_ren in old_lvs: result = self.rpc.call_blockdev_find(tgt_node, to_ren) if not result.RemoteFailMsg() and result.payload: # device exists rlist.append((to_ren, ren_fn(to_ren, temp_suffix))) info("renaming the old LVs on the target node") result = self.rpc.call_blockdev_rename(tgt_node, rlist) result.Raise() if not result.data: raise errors.OpExecError("Can't rename old LVs on node %s" % tgt_node) # now we rename the new LVs to the old LVs info("renaming the new LVs on the target node") rlist = [(new, old.physical_id) for old, new in zip(old_lvs, new_lvs)] result = self.rpc.call_blockdev_rename(tgt_node, rlist) result.Raise() if not result.data: raise errors.OpExecError("Can't rename new LVs on node %s" % tgt_node) for old, new in zip(old_lvs, new_lvs): new.logical_id = old.logical_id cfg.SetDiskID(new, tgt_node) for disk in old_lvs: disk.logical_id = ren_fn(disk, temp_suffix) cfg.SetDiskID(disk, tgt_node) # 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) if result.failed or not result.data: for new_lv in new_lvs: msg = self.rpc.call_blockdev_remove(tgt_node, new_lv).RemoteFailMsg() if msg: warning("Can't rollback device %s: %s", dev, msg, hint="cleanup manually the unused logical volumes") raise errors.OpExecError("Can't add local storage to drbd") dev.children = new_lvs cfg.Update(instance) # Step: wait for sync # this can fail as the old devices are degraded and _WaitForSync # does a combined result over all disks, so we don't check its # return value self.proc.LogStep(5, steps_total, "sync devices") _WaitForSync(self, instance, unlock=True) # so check manually all the devices for name, (dev, old_lvs, new_lvs) in iv_names.iteritems(): cfg.SetDiskID(dev, instance.primary_node) result = self.rpc.call_blockdev_find(instance.primary_node, dev) msg = result.RemoteFailMsg() if not msg and not result.payload: msg = "disk not found" if msg: raise errors.OpExecError("Can't find DRBD device %s: %s" % (name, msg)) if result.payload[5]: raise errors.OpExecError("DRBD device %s is degraded!" % name) # Step: remove old storage self.proc.LogStep(6, steps_total, "removing old storage") for name, (dev, old_lvs, new_lvs) in iv_names.iteritems(): info("remove logical volumes for %s" % name) for lv in old_lvs: cfg.SetDiskID(lv, tgt_node) msg = self.rpc.call_blockdev_remove(tgt_node, lv).RemoteFailMsg() if msg: warning("Can't remove old LV: %s" % msg, hint="manually remove unused LVs") continue def _ExecD8Secondary(self, feedback_fn): """Replace the secondary node for drbd8. The algorithm for replace is quite complicated: - for all disks of the instance: - create new LVs on the new node with same names - shutdown the drbd device on the old secondary - disconnect the drbd network on the primary - create the drbd device on the new secondary - network attach the drbd on the primary, using an artifice: the drbd code for Attach() will connect to the network if it finds a device which is connected to the good local disks but not network enabled - wait for sync across all devices - remove all disks from the old secondary Failures are not very well handled. """ steps_total = 6 warning, info = (self.proc.LogWarning, self.proc.LogInfo) instance = self.instance iv_names = {} # 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") info("checking volume groups") my_vg = cfg.GetVGName() results = self.rpc.call_vg_list([pri_node, new_node]) for node in pri_node, new_node: res = results[node] if res.failed or not res.data or my_vg not in res.data: raise errors.OpExecError("Volume group '%s' not found on %s" % (my_vg, node)) for idx, dev in enumerate(instance.disks): if idx not in self.op.disks: continue info("checking disk/%d on %s" % (idx, pri_node)) cfg.SetDiskID(dev, pri_node) result = self.rpc.call_blockdev_find(pri_node, dev) msg = result.RemoteFailMsg() if not msg and not result.payload: msg = "disk not found" if msg: raise errors.OpExecError("Can't find disk/%d on node %s: %s" % (idx, pri_node, msg)) # Step: check other node consistency self.proc.LogStep(2, steps_total, "check peer consistency") for idx, dev in enumerate(instance.disks): if idx not in self.op.disks: continue info("checking disk/%d consistency on %s" % (idx, pri_node)) if not _CheckDiskConsistency(self, dev, pri_node, True, ldisk=True): raise errors.OpExecError("Primary node (%s) has degraded storage," " unsafe to replace the secondary" % pri_node) # Step: create new storage self.proc.LogStep(3, steps_total, "allocate new storage") for idx, dev in enumerate(instance.disks): info("adding new local storage on %s for disk/%d" % (new_node, idx)) # we pass force_create=True to force LVM creation for new_lv in dev.children: _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 # error and the success paths minors = cfg.AllocateDRBDMinor([new_node for dev in instance.disks], instance.name) logging.debug("Allocated minors %s" % (minors,)) self.proc.LogStep(4, steps_total, "changing drbd configuration") 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; 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: 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_net_id) new_drbd = objects.Disk(dev_type=constants.LD_DRBD8, logical_id=new_alone_id, children=dev.children) try: _CreateSingleBlockDev(self, new_node, instance, new_drbd, _GetInstanceInfoText(instance), False) except errors.BlockDeviceError: self.cfg.ReleaseDRBDMinors(instance.name) raise for idx, dev in enumerate(instance.disks): # we have new devices, shutdown the drbd on the old secondary info("shutting down drbd for disk/%d on old node" % idx) cfg.SetDiskID(dev, old_node) msg = self.rpc.call_blockdev_shutdown(old_node, dev).RemoteFailMsg() if msg: warning("Failed to shutdown drbd for disk/%d on old node: %s" % (idx, msg), hint="Please cleanup this device manually as soon as possible") info("detaching primary drbds from the network (=> standalone)") result = self.rpc.call_drbd_disconnect_net([pri_node], nodes_ip, instance.disks)[pri_node] msg = result.RemoteFailMsg() if msg: # detaches didn't succeed (unlikely) self.cfg.ReleaseDRBDMinors(instance.name) 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 info("updating instance configuration") for dev, _, new_logical_id in iv_names.itervalues(): dev.logical_id = new_logical_id cfg.SetDiskID(dev, pri_node) cfg.Update(instance) # and now perform the drbd attach info("attaching primary drbds to new secondary (standalone => connected)") 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 # return value self.proc.LogStep(5, steps_total, "sync devices") _WaitForSync(self, instance, unlock=True) # so check manually all the devices for idx, (dev, old_lvs, _) in iv_names.iteritems(): cfg.SetDiskID(dev, pri_node) result = self.rpc.call_blockdev_find(pri_node, dev) msg = result.RemoteFailMsg() if not msg and not result.payload: msg = "disk not found" if msg: raise errors.OpExecError("Can't find DRBD device disk/%d: %s" % (idx, msg)) if result.payload[5]: raise errors.OpExecError("DRBD device disk/%d is degraded!" % idx) self.proc.LogStep(6, steps_total, "removing old storage") for idx, (dev, old_lvs, _) in iv_names.iteritems(): info("remove logical volumes for disk/%d" % idx) for lv in old_lvs: cfg.SetDiskID(lv, old_node) msg = self.rpc.call_blockdev_remove(old_node, lv).RemoteFailMsg() if msg: warning("Can't remove LV on old secondary: %s", msg, hint="Cleanup stale volumes by hand") def Exec(self, feedback_fn): """Execute disk replacement. This dispatches the disk replacement to the appropriate handler. """ instance = self.instance # Activate the instance disks if we're replacing them on a down instance if not instance.admin_up: _StartInstanceDisks(self, instance, True) if self.op.mode == constants.REPLACE_DISK_CHG: fn = self._ExecD8Secondary else: fn = self._ExecD8DiskOnly ret = fn(feedback_fn) # Deactivate the instance disks if we're replacing them on a down instance if not instance.admin_up: _SafeShutdownInstanceDisks(self, instance) return ret class LUGrowDisk(LogicalUnit): """Grow a disk of an instance. """ HPATH = "disk-grow" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name", "disk", "amount", "wait_for_sync"] 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 BuildHooksEnv(self): """Build hooks env. This runs on the master, the primary and all the secondaries. """ env = { "DISK": self.op.disk, "AMOUNT": self.op.amount, } env.update(_BuildInstanceHookEnvByObject(self, self.instance)) nl = [ self.cfg.GetMasterNode(), self.instance.primary_node, ] return env, nl, nl def CheckPrereq(self): """Check prerequisites. This checks that the instance is in the cluster. """ 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 if instance.disk_template not in (constants.DT_PLAIN, constants.DT_DRBD8): raise errors.OpPrereqError("Instance's disk layout does not support" " growing.") self.disk = instance.FindDisk(self.op.disk) nodeinfo = self.rpc.call_node_info(nodenames, self.cfg.GetVGName(), instance.hypervisor) for node in nodenames: info = nodeinfo[node] if info.failed or not info.data: raise errors.OpPrereqError("Cannot get current information" " from node '%s'" % node) vg_free = info.data.get('vg_free', None) if not isinstance(vg_free, int): raise errors.OpPrereqError("Can't compute free disk space on" " node %s" % node) if self.op.amount > vg_free: raise errors.OpPrereqError("Not enough disk space on target node %s:" " %d MiB available, %d MiB required" % (node, vg_free, self.op.amount)) def Exec(self, feedback_fn): """Execute disk grow. """ instance = self.instance disk = self.disk for node in instance.all_nodes: self.cfg.SetDiskID(disk, node) result = self.rpc.call_blockdev_grow(node, disk, self.op.amount) msg = result.RemoteFailMsg() if msg: raise errors.OpExecError("Grow request failed to node %s: %s" % (node, msg)) disk.RecordGrow(self.op.amount) self.cfg.Update(instance) if self.op.wait_for_sync: disk_abort = not _WaitForSync(self, instance) if disk_abort: self.proc.LogWarning("Warning: disk sync-ing has not returned a good" " status.\nPlease check the instance.") class LUQueryInstanceData(NoHooksLU): """Query runtime instance data. """ _OP_REQP = ["instances", "static"] REQ_BGL = False def ExpandNames(self): self.needed_locks = {} self.share_locks = dict(((i, 1) for i in locking.LEVELS)) if not isinstance(self.op.instances, list): raise errors.OpPrereqError("Invalid argument type 'instances'") if self.op.instances: self.wanted_names = [] for name in self.op.instances: full_name = self.cfg.ExpandInstanceName(name) if full_name is None: raise errors.OpPrereqError("Instance '%s' not known" % name) self.wanted_names.append(full_name) self.needed_locks[locking.LEVEL_INSTANCE] = self.wanted_names else: self.wanted_names = None self.needed_locks[locking.LEVEL_INSTANCE] = locking.ALL_SET 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 CheckPrereq(self): """Check prerequisites. This only checks the optional instance list against the existing names. """ if self.wanted_names is None: self.wanted_names = self.acquired_locks[locking.LEVEL_INSTANCE] self.wanted_instances = [self.cfg.GetInstanceInfo(name) for name in self.wanted_names] return def _ComputeDiskStatus(self, instance, snode, dev): """Compute block device status. """ static = self.op.static if not static: self.cfg.SetDiskID(dev, instance.primary_node) dev_pstatus = self.rpc.call_blockdev_find(instance.primary_node, dev) msg = dev_pstatus.RemoteFailMsg() if msg: raise errors.OpExecError("Can't compute disk status for %s: %s" % (instance.name, msg)) dev_pstatus = dev_pstatus.payload else: dev_pstatus = None 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[1] else: snode = dev.logical_id[0] if snode and not static: self.cfg.SetDiskID(dev, snode) dev_sstatus = self.rpc.call_blockdev_find(snode, dev) msg = dev_sstatus.RemoteFailMsg() if msg: raise errors.OpExecError("Can't compute disk status for %s: %s" % (instance.name, msg)) dev_sstatus = dev_sstatus.payload else: dev_sstatus = None if dev.children: dev_children = [self._ComputeDiskStatus(instance, snode, child) for child in dev.children] else: dev_children = [] data = { "iv_name": dev.iv_name, "dev_type": dev.dev_type, "logical_id": dev.logical_id, "physical_id": dev.physical_id, "pstatus": dev_pstatus, "sstatus": dev_sstatus, "children": dev_children, "mode": dev.mode, } return data def Exec(self, feedback_fn): """Gather and return data""" result = {} cluster = self.cfg.GetClusterInfo() for instance in self.wanted_instances: if not self.op.static: remote_info = self.rpc.call_instance_info(instance.primary_node, instance.name, instance.hypervisor) remote_info.Raise() remote_info = remote_info.data if remote_info and "state" in remote_info: remote_state = "up" else: remote_state = "down" else: remote_state = None if instance.admin_up: config_state = "up" else: config_state = "down" disks = [self._ComputeDiskStatus(instance, None, device) for device in instance.disks] idict = { "name": instance.name, "config_state": config_state, "run_state": remote_state, "pnode": instance.primary_node, "snodes": instance.secondary_nodes, "os": instance.os, "nics": [(nic.mac, nic.ip, nic.bridge) for nic in instance.nics], "disks": disks, "hypervisor": instance.hypervisor, "network_port": instance.network_port, "hv_instance": instance.hvparams, "hv_actual": cluster.FillHV(instance), "be_instance": instance.beparams, "be_actual": cluster.FillBE(instance), } result[instance.name] = idict return result class LUSetInstanceParams(LogicalUnit): """Modifies an instances's parameters. """ HPATH = "instance-modify" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name"] REQ_BGL = False def CheckArguments(self): if not hasattr(self.op, 'nics'): self.op.nics = [] if not hasattr(self.op, 'disks'): self.op.disks = [] if not hasattr(self.op, 'beparams'): self.op.beparams = {} if not hasattr(self.op, 'hvparams'): self.op.hvparams = {} self.op.force = getattr(self.op, "force", False) if not (self.op.nics or self.op.disks or self.op.hvparams or self.op.beparams): raise errors.OpPrereqError("No changes submitted") # Disk validation disk_addremove = 0 for disk_op, disk_dict in self.op.disks: if disk_op == constants.DDM_REMOVE: disk_addremove += 1 continue elif disk_op == constants.DDM_ADD: disk_addremove += 1 else: if not isinstance(disk_op, int): 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_ACCESS_SET: raise errors.OpPrereqError("Invalid disk access mode '%s'" % mode) size = disk_dict.get('size', None) if size is None: raise errors.OpPrereqError("Required disk parameter size missing") try: size = int(size) except ValueError, err: raise errors.OpPrereqError("Invalid disk size parameter: %s" % str(err)) disk_dict['size'] = size else: # modification of disk if 'size' in disk_dict: raise errors.OpPrereqError("Disk size change not possible, use" " grow-disk") if disk_addremove > 1: raise errors.OpPrereqError("Only one disk add or remove operation" " supported at a time") # NIC validation nic_addremove = 0 for nic_op, nic_dict in self.op.nics: if nic_op == constants.DDM_REMOVE: nic_addremove += 1 continue elif nic_op == constants.DDM_ADD: nic_addremove += 1 else: if not isinstance(nic_op, int): raise errors.OpPrereqError("Invalid nic index") # nic_dict should be a dict nic_ip = nic_dict.get('ip', None) if nic_ip is not None: if nic_ip.lower() == constants.VALUE_NONE: nic_dict['ip'] = None else: if not utils.IsValidIP(nic_ip): raise errors.OpPrereqError("Invalid IP address '%s'" % nic_ip) if nic_op == constants.DDM_ADD: nic_bridge = nic_dict.get('bridge', None) if nic_bridge is None: nic_dict['bridge'] = self.cfg.GetDefBridge() nic_mac = nic_dict.get('mac', None) if nic_mac is None: nic_dict['mac'] = constants.VALUE_AUTO if 'mac' in nic_dict: nic_mac = nic_dict['mac'] if nic_mac not in (constants.VALUE_AUTO, constants.VALUE_GENERATE): if not utils.IsValidMac(nic_mac): raise errors.OpPrereqError("Invalid MAC address %s" % nic_mac) if nic_op != constants.DDM_ADD and nic_mac == constants.VALUE_AUTO: raise errors.OpPrereqError("'auto' is not a valid MAC address when" " modifying an existing nic") if nic_addremove > 1: raise errors.OpPrereqError("Only one NIC add or remove operation" " supported at a time") 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 BuildHooksEnv(self): """Build hooks env. This runs on the master, primary and secondaries. """ args = dict() if constants.BE_MEMORY in self.be_new: args['memory'] = self.be_new[constants.BE_MEMORY] if constants.BE_VCPUS in self.be_new: args['vcpus'] = self.be_new[constants.BE_VCPUS] # TODO: export disk changes. Note: _BuildInstanceHookEnv* don't export disk # information at all. if self.op.nics: args['nics'] = [] nic_override = dict(self.op.nics) for idx, nic in enumerate(self.instance.nics): if idx in nic_override: this_nic_override = nic_override[idx] else: this_nic_override = {} if 'ip' in this_nic_override: ip = this_nic_override['ip'] else: ip = nic.ip if 'bridge' in this_nic_override: bridge = this_nic_override['bridge'] else: bridge = nic.bridge if 'mac' in this_nic_override: mac = this_nic_override['mac'] else: mac = nic.mac args['nics'].append((ip, bridge, mac)) if constants.DDM_ADD in nic_override: ip = nic_override[constants.DDM_ADD].get('ip', None) bridge = nic_override[constants.DDM_ADD]['bridge'] mac = nic_override[constants.DDM_ADD]['mac'] args['nics'].append((ip, bridge, mac)) elif constants.DDM_REMOVE in nic_override: del args['nics'][-1] env = _BuildInstanceHookEnvByObject(self, self.instance, override=args) nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes) return env, nl, nl def CheckPrereq(self): """Check prerequisites. This only checks the instance list against the existing names. """ force = self.force = self.op.force # checking the new params on the primary/secondary nodes 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 = instance.primary_node nodelist = list(instance.all_nodes) # hvparams processing if self.op.hvparams: i_hvdict = copy.deepcopy(instance.hvparams) for key, val in self.op.hvparams.iteritems(): if val == constants.VALUE_DEFAULT: try: del i_hvdict[key] except KeyError: pass else: i_hvdict[key] = val cluster = self.cfg.GetClusterInfo() utils.ForceDictType(i_hvdict, constants.HVS_PARAMETER_TYPES) hv_new = cluster.FillDict(cluster.hvparams[instance.hypervisor], i_hvdict) # local check hypervisor.GetHypervisor( instance.hypervisor).CheckParameterSyntax(hv_new) _CheckHVParams(self, nodelist, instance.hypervisor, hv_new) self.hv_new = hv_new # the new actual values self.hv_inst = i_hvdict # the new dict (without defaults) else: self.hv_new = self.hv_inst = {} # beparams processing if self.op.beparams: i_bedict = copy.deepcopy(instance.beparams) for key, val in self.op.beparams.iteritems(): if val == constants.VALUE_DEFAULT: try: del i_bedict[key] except KeyError: pass else: i_bedict[key] = val cluster = self.cfg.GetClusterInfo() utils.ForceDictType(i_bedict, constants.BES_PARAMETER_TYPES) be_new = cluster.FillDict(cluster.beparams[constants.BEGR_DEFAULT], i_bedict) self.be_new = be_new # the new actual values self.be_inst = i_bedict # the new dict (without defaults) else: self.be_new = self.be_inst = {} self.warn = [] if constants.BE_MEMORY in self.op.beparams and not self.force: mem_check_list = [pnode] if be_new[constants.BE_AUTO_BALANCE]: # either we changed auto_balance to yes or it was from before mem_check_list.extend(instance.secondary_nodes) instance_info = self.rpc.call_instance_info(pnode, instance.name, instance.hypervisor) nodeinfo = self.rpc.call_node_info(mem_check_list, self.cfg.GetVGName(), instance.hypervisor) if nodeinfo[pnode].failed or not isinstance(nodeinfo[pnode].data, dict): # Assume the primary node is unreachable and go ahead self.warn.append("Can't get info from primary node %s" % pnode) else: if not instance_info.failed and instance_info.data: current_mem = instance_info.data['memory'] else: # Assume instance not running # (there is a slight race condition here, but it's not very probable, # and we have no other way to check) current_mem = 0 miss_mem = (be_new[constants.BE_MEMORY] - current_mem - nodeinfo[pnode].data['memory_free']) if miss_mem > 0: raise errors.OpPrereqError("This change will prevent the instance" " from starting, due to %d MB of memory" " missing on its primary node" % miss_mem) if be_new[constants.BE_AUTO_BALANCE]: 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']: self.warn.append("Not enough memory to failover instance to" " secondary node %s" % node) # NIC processing for nic_op, nic_dict in self.op.nics: if nic_op == constants.DDM_REMOVE: if not instance.nics: raise errors.OpPrereqError("Instance has no NICs, cannot remove") continue if nic_op != constants.DDM_ADD: # an existing nic if nic_op < 0 or nic_op >= len(instance.nics): raise errors.OpPrereqError("Invalid NIC index %s, valid values" " are 0 to %d" % (nic_op, len(instance.nics))) if 'bridge' in nic_dict: nic_bridge = nic_dict['bridge'] if nic_bridge is None: raise errors.OpPrereqError('Cannot set the nic bridge to None') if not self.rpc.call_bridges_exist(pnode, [nic_bridge]): msg = ("Bridge '%s' doesn't exist on one of" " the instance nodes" % nic_bridge) if self.force: self.warn.append(msg) else: raise errors.OpPrereqError(msg) if 'mac' in nic_dict: nic_mac = nic_dict['mac'] if nic_mac is None: raise errors.OpPrereqError('Cannot set the nic mac to None') elif nic_mac in (constants.VALUE_AUTO, constants.VALUE_GENERATE): # otherwise generate the mac nic_dict['mac'] = self.cfg.GenerateMAC() else: # or validate/reserve the current one if self.cfg.IsMacInUse(nic_mac): raise errors.OpPrereqError("MAC address %s already in use" " in cluster" % nic_mac) # DISK processing if self.op.disks and instance.disk_template == constants.DT_DISKLESS: raise errors.OpPrereqError("Disk operations not supported for" " diskless instances") for disk_op, disk_dict in self.op.disks: if disk_op == constants.DDM_REMOVE: if len(instance.disks) == 1: raise errors.OpPrereqError("Cannot remove the last disk of" " an instance") ins_l = self.rpc.call_instance_list([pnode], [instance.hypervisor]) ins_l = ins_l[pnode] 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.data: raise errors.OpPrereqError("Instance is running, can't remove" " disks.") if (disk_op == constants.DDM_ADD and len(instance.nics) >= constants.MAX_DISKS): raise errors.OpPrereqError("Instance has too many disks (%d), cannot" " add more" % constants.MAX_DISKS) if disk_op not in (constants.DDM_ADD, constants.DDM_REMOVE): # an existing disk if disk_op < 0 or disk_op >= len(instance.disks): raise errors.OpPrereqError("Invalid disk index %s, valid values" " are 0 to %d" % (disk_op, len(instance.disks))) return def Exec(self, feedback_fn): """Modifies an instance. All parameters take effect only at the next restart of the instance. """ # Process here the warnings from CheckPrereq, as we don't have a # feedback_fn there. for warn in self.warn: feedback_fn("WARNING: %s" % warn) result = [] instance = self.instance # disk changes for disk_op, disk_dict in self.op.disks: if disk_op == constants.DDM_REMOVE: # remove the last disk device = instance.disks.pop() device_idx = len(instance.disks) for node, disk in device.ComputeNodeTree(instance.primary_node): self.cfg.SetDiskID(disk, node) msg = self.rpc.call_blockdev_remove(node, disk).RemoteFailMsg() if msg: self.LogWarning("Could not remove disk/%d on node %s: %s," " continuing anyway", device_idx, node, msg) result.append(("disk/%d" % device_idx, "remove")) elif disk_op == constants.DDM_ADD: # add a new disk if instance.disk_template == constants.DT_FILE: file_driver, file_path = instance.disks[0].logical_id file_path = os.path.dirname(file_path) else: file_driver = file_path = None disk_idx_base = len(instance.disks) new_disk = _GenerateDiskTemplate(self, instance.disk_template, instance.name, instance.primary_node, instance.secondary_nodes, [disk_dict], file_path, file_driver, disk_idx_base)[0] instance.disks.append(new_disk) info = _GetInstanceInfoText(instance) logging.info("Creating volume %s for instance %s", new_disk.iv_name, instance.name) # Note: this needs to be kept in sync with _CreateDisks #HARDCODE 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" " 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: # change a given disk instance.disks[disk_op].mode = disk_dict['mode'] result.append(("disk.mode/%d" % disk_op, disk_dict['mode'])) # NIC changes for nic_op, nic_dict in self.op.nics: if nic_op == constants.DDM_REMOVE: # remove the last nic del instance.nics[-1] result.append(("nic.%d" % len(instance.nics), "remove")) elif nic_op == constants.DDM_ADD: # mac and bridge should be set, by now mac = nic_dict['mac'] bridge = nic_dict['bridge'] new_nic = objects.NIC(mac=mac, ip=nic_dict.get('ip', None), bridge=bridge) instance.nics.append(new_nic) result.append(("nic.%d" % (len(instance.nics) - 1), "add:mac=%s,ip=%s,bridge=%s" % (new_nic.mac, new_nic.ip, new_nic.bridge))) else: # change a given nic for key in 'mac', 'ip', 'bridge': if key in nic_dict: setattr(instance.nics[nic_op], key, nic_dict[key]) result.append(("nic.%s/%d" % (key, nic_op), nic_dict[key])) # hvparams changes if self.op.hvparams: instance.hvparams = self.hv_inst for key, val in self.op.hvparams.iteritems(): result.append(("hv/%s" % key, val)) # beparams changes if self.op.beparams: instance.beparams = self.be_inst for key, val in self.op.beparams.iteritems(): result.append(("be/%s" % key, val)) self.cfg.Update(instance) return result class LUQueryExports(NoHooksLU): """Query the exports list """ _OP_REQP = ['nodes'] REQ_BGL = False 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) def CheckPrereq(self): """Check prerequisites. """ self.nodes = self.acquired_locks[locking.LEVEL_NODE] def Exec(self, feedback_fn): """Compute the list of all the exported system images. @rtype: dict @return: a dictionary with the structure node->(export-list) where export-list is a list of the instances exported on that node. """ rpcresult = self.rpc.call_export_list(self.nodes) result = {} for node in rpcresult: if rpcresult[node].failed: result[node] = False else: result[node] = rpcresult[node].data return result class LUExportInstance(LogicalUnit): """Export an instance to an image in the cluster. """ HPATH = "instance-export" HTYPE = constants.HTYPE_INSTANCE _OP_REQP = ["instance_name", "target_node", "shutdown"] REQ_BGL = False def ExpandNames(self): self._ExpandAndLockInstance() # FIXME: lock only instance primary and destination node # # Sad but true, for now we have do lock all nodes, as we don't know where # the previous export might be, and and in this LU we search for it and # remove it from its current node. In the future we could fix this by: # - making a tasklet to search (share-lock all), then create the new one, # then one to remove, after # - removing the removal operation altoghether self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET def DeclareLocks(self, level): """Last minute lock declaration.""" # All nodes are locked anyway, so nothing to do here. def BuildHooksEnv(self): """Build hooks env. This will run on the master, primary node and target node. """ env = { "EXPORT_NODE": self.op.target_node, "EXPORT_DO_SHUTDOWN": self.op.shutdown, } env.update(_BuildInstanceHookEnvByObject(self, self.instance)) nl = [self.cfg.GetMasterNode(), self.instance.primary_node, self.op.target_node] return env, nl, nl def CheckPrereq(self): """Check prerequisites. This checks that the instance and node names are valid. """ instance_name = self.op.instance_name 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) _CheckNodeNotDrained(self, self.dst_node.name) # instance disk type verification for disk in self.instance.disks: if disk.dev_type == constants.LD_FILE: raise errors.OpPrereqError("Export not supported for instances with" " file-based disks") def Exec(self, feedback_fn): """Export an instance to an image in the cluster. """ instance = self.instance dst_node = self.dst_node src_node = instance.primary_node if self.op.shutdown: # shutdown the instance, but not the disks result = self.rpc.call_instance_shutdown(src_node, instance) msg = result.RemoteFailMsg() if msg: raise errors.OpExecError("Could not shutdown instance %s on" " node %s: %s" % (instance.name, src_node, msg)) vgname = self.cfg.GetVGName() 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 new_dev_name = self.rpc.call_blockdev_snapshot(src_node, disk) if new_dev_name.failed or not new_dev_name.data: self.LogWarning("Could not snapshot block device %s on node %s", disk.logical_id[1], src_node) snap_disks.append(False) else: new_dev = objects.Disk(dev_type=constants.LD_LV, size=disk.size, logical_id=(vgname, new_dev_name.data), physical_id=(vgname, new_dev_name.data), iv_name=disk.iv_name) snap_disks.append(new_dev) finally: if self.op.shutdown and instance.admin_up: result = self.rpc.call_instance_start(src_node, instance, None) msg = result.RemoteFailMsg() if msg: _ShutdownInstanceDisks(self, instance) raise errors.OpExecError("Could not start instance: %s" % msg) # TODO: check for size cluster_name = self.cfg.GetClusterName() for idx, dev in enumerate(snap_disks): if dev: result = self.rpc.call_snapshot_export(src_node, dev, dst_node.name, instance, cluster_name, idx) if result.failed or not result.data: self.LogWarning("Could not export block device %s from node %s to" " node %s", dev.logical_id[1], src_node, dst_node.name) msg = self.rpc.call_blockdev_remove(src_node, dev).RemoteFailMsg() if msg: self.LogWarning("Could not remove snapshot block device %s from node" " %s: %s", dev.logical_id[1], src_node, msg) result = self.rpc.call_finalize_export(dst_node.name, instance, snap_disks) if result.failed or not result.data: self.LogWarning("Could not finalize export for instance %s on node %s", instance.name, dst_node.name) nodelist = self.cfg.GetNodeList() nodelist.remove(dst_node.name) # on one-node clusters nodelist will be empty after the removal # if we proceed the backup would be removed because OpQueryExports # substitutes an empty list with the full cluster node list. if nodelist: exportlist = self.rpc.call_export_list(nodelist) for node in exportlist: if exportlist[node].failed: continue if instance.name in exportlist[node].data: if not self.rpc.call_export_remove(node, instance.name): self.LogWarning("Could not remove older export for instance %s" " on node %s", instance.name, node) class LURemoveExport(NoHooksLU): """Remove exports related to the named instance. """ _OP_REQP = ["instance_name"] REQ_BGL = False def ExpandNames(self): self.needed_locks = {} # We need all nodes to be locked in order for RemoveExport to work, but we # don't need to lock the instance itself, as nothing will happen to it (and # we can remove exports also for a removed instance) self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET def CheckPrereq(self): """Check prerequisites. """ pass def Exec(self, feedback_fn): """Remove any export. """ instance_name = self.cfg.ExpandInstanceName(self.op.instance_name) # If the instance was not found we'll try with the name that was passed in. # This will only work if it was an FQDN, though. fqdn_warn = False if not instance_name: fqdn_warn = True instance_name = self.op.instance_name exportlist = self.rpc.call_export_list(self.acquired_locks[ locking.LEVEL_NODE]) found = False for node in exportlist: if exportlist[node].failed: self.LogWarning("Failed to query node %s, continuing" % node) continue if instance_name in exportlist[node].data: found = True result = self.rpc.call_export_remove(node, instance_name) if result.failed or not result.data: logging.error("Could not remove export for instance %s" " on node %s", instance_name, node) if fqdn_warn and not found: feedback_fn("Export not found. If trying to remove an export belonging" " to a deleted instance please use its Fully Qualified" " Domain Name.") class TagsLU(NoHooksLU): """Generic tags LU. This is an abstract class which is the parent of all the other tags LUs. """ def ExpandNames(self): self.needed_locks = {} if self.op.kind == constants.TAG_NODE: name = self.cfg.ExpandNodeName(self.op.name) if name is None: raise errors.OpPrereqError("Invalid node name (%s)" % (self.op.name,)) self.op.name = name self.needed_locks[locking.LEVEL_NODE] = name elif self.op.kind == constants.TAG_INSTANCE: name = self.cfg.ExpandInstanceName(self.op.name) if name is None: raise errors.OpPrereqError("Invalid instance name (%s)" % (self.op.name,)) self.op.name = name self.needed_locks[locking.LEVEL_INSTANCE] = name def CheckPrereq(self): """Check prerequisites. """ if self.op.kind == constants.TAG_CLUSTER: self.target = self.cfg.GetClusterInfo() elif self.op.kind == constants.TAG_NODE: self.target = self.cfg.GetNodeInfo(self.op.name) elif self.op.kind == constants.TAG_INSTANCE: self.target = self.cfg.GetInstanceInfo(self.op.name) else: raise errors.OpPrereqError("Wrong tag type requested (%s)" % str(self.op.kind)) class LUGetTags(TagsLU): """Returns the tags of a given object. """ _OP_REQP = ["kind", "name"] REQ_BGL = False def Exec(self, feedback_fn): """Returns the tag list. """ return list(self.target.GetTags()) class LUSearchTags(NoHooksLU): """Searches the tags for a given pattern. """ _OP_REQP = ["pattern"] REQ_BGL = False def ExpandNames(self): self.needed_locks = {} def CheckPrereq(self): """Check prerequisites. This checks the pattern passed for validity by compiling it. """ try: self.re = re.compile(self.op.pattern) except re.error, err: raise errors.OpPrereqError("Invalid search pattern '%s': %s" % (self.op.pattern, err)) def Exec(self, feedback_fn): """Returns the tag list. """ cfg = self.cfg tgts = [("/cluster", cfg.GetClusterInfo())] ilist = cfg.GetAllInstancesInfo().values() tgts.extend([("/instances/%s" % i.name, i) for i in ilist]) nlist = cfg.GetAllNodesInfo().values() tgts.extend([("/nodes/%s" % n.name, n) for n in nlist]) results = [] for path, target in tgts: for tag in target.GetTags(): if self.re.search(tag): results.append((path, tag)) return results class LUAddTags(TagsLU): """Sets a tag on a given object. """ _OP_REQP = ["kind", "name", "tags"] REQ_BGL = False def CheckPrereq(self): """Check prerequisites. This checks the type and length of the tag name and value. """ TagsLU.CheckPrereq(self) for tag in self.op.tags: objects.TaggableObject.ValidateTag(tag) def Exec(self, feedback_fn): """Sets the tag. """ try: for tag in self.op.tags: self.target.AddTag(tag) except errors.TagError, err: raise errors.OpExecError("Error while setting tag: %s" % str(err)) try: self.cfg.Update(self.target) except errors.ConfigurationError: raise errors.OpRetryError("There has been a modification to the" " config file and the operation has been" " aborted. Please retry.") class LUDelTags(TagsLU): """Delete a list of tags from a given object. """ _OP_REQP = ["kind", "name", "tags"] REQ_BGL = False def CheckPrereq(self): """Check prerequisites. This checks that we have the given tag. """ TagsLU.CheckPrereq(self) for tag in self.op.tags: objects.TaggableObject.ValidateTag(tag) del_tags = frozenset(self.op.tags) cur_tags = self.target.GetTags() if not del_tags <= cur_tags: diff_tags = del_tags - cur_tags diff_names = ["'%s'" % tag for tag in diff_tags] diff_names.sort() raise errors.OpPrereqError("Tag(s) %s not found" % (",".join(diff_names))) def Exec(self, feedback_fn): """Remove the tag from the object. """ for tag in self.op.tags: self.target.RemoveTag(tag) try: self.cfg.Update(self.target) except errors.ConfigurationError: raise errors.OpRetryError("There has been a modification to the" " config file and the operation has been" " aborted. Please retry.") class LUTestDelay(NoHooksLU): """Sleep for a specified amount of time. This LU sleeps on the master and/or nodes for a specified amount of time. """ _OP_REQP = ["duration", "on_master", "on_nodes"] REQ_BGL = False def ExpandNames(self): """Expand names and set required locks. This expands the node list, if any. """ self.needed_locks = {} if self.op.on_nodes: # _GetWantedNodes can be used here, but is not always appropriate to use # this way in ExpandNames. Check LogicalUnit.ExpandNames docstring for # more information. self.op.on_nodes = _GetWantedNodes(self, self.op.on_nodes) self.needed_locks[locking.LEVEL_NODE] = self.op.on_nodes def CheckPrereq(self): """Check prerequisites. """ def Exec(self, feedback_fn): """Do the actual sleep. """ if self.op.on_master: if not utils.TestDelay(self.op.duration): raise errors.OpExecError("Error during master delay test") if self.op.on_nodes: result = self.rpc.call_test_delay(self.op.on_nodes, self.op.duration) if not result: raise errors.OpExecError("Complete failure from rpc call") for node, node_result in result.items(): node_result.Raise() if not node_result.data: raise errors.OpExecError("Failure during rpc call to node %s," " result: %s" % (node, node_result.data)) class IAllocator(object): """IAllocator framework. An IAllocator instance has three sets of attributes: - cfg that is needed to query the cluster - input data (all members of the _KEYS class attribute are required) - four buffer attributes (in|out_data|text), that represent the input (to the external script) in text and data structure format, and the output from it, again in two formats - the result variables from the script (success, info, nodes) for easy usage """ _ALLO_KEYS = [ "mem_size", "disks", "disk_template", "os", "tags", "nics", "vcpus", "hypervisor", ] _RELO_KEYS = [ "relocate_from", ] def __init__(self, lu, mode, name, **kwargs): self.lu = lu # init buffer variables self.in_text = self.out_text = self.in_data = self.out_data = None # init all input fields so that pylint is happy self.mode = mode 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 # init result fields self.success = self.info = self.nodes = None if self.mode == constants.IALLOCATOR_MODE_ALLOC: keyset = self._ALLO_KEYS elif self.mode == constants.IALLOCATOR_MODE_RELOC: keyset = self._RELO_KEYS else: raise errors.ProgrammerError("Unknown mode '%s' passed to the" " IAllocator" % self.mode) for key in kwargs: if key not in keyset: raise errors.ProgrammerError("Invalid input parameter '%s' to" " IAllocator" % key) setattr(self, key, kwargs[key]) for key in keyset: if key not in kwargs: raise errors.ProgrammerError("Missing input parameter '%s' to" " IAllocator" % key) self._BuildInputData() def _ComputeClusterData(self): """Compute the generic allocator input data. This is the data that is independent of the actual operation. """ cfg = self.lu.cfg cluster_info = cfg.GetClusterInfo() # cluster data data = { "version": 1, "cluster_name": cfg.GetClusterName(), "cluster_tags": list(cluster_info.GetTags()), "enabled_hypervisors": list(cluster_info.enabled_hypervisors), # we don't have job IDs } iinfo = cfg.GetAllInstancesInfo().values() i_list = [(inst, cluster_info.FillBE(inst)) for inst in iinfo] # node data node_results = {} node_list = cfg.GetNodeList() if self.mode == constants.IALLOCATOR_MODE_ALLOC: hypervisor_name = self.hypervisor elif self.mode == constants.IALLOCATOR_MODE_RELOC: hypervisor_name = cfg.GetInstanceInfo(self.name).hypervisor node_data = self.lu.rpc.call_node_info(node_list, cfg.GetVGName(), hypervisor_name) node_iinfo = self.lu.rpc.call_all_instances_info(node_list, cluster_info.enabled_hypervisors) for nname, nresult in node_data.items(): # first fill in static (config-based) values ninfo = cfg.GetNodeInfo(nname) pnr = { "tags": list(ninfo.GetTags()), "primary_ip": ninfo.primary_ip, "secondary_ip": ninfo.secondary_ip, "offline": ninfo.offline, "drained": ninfo.drained, "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 # instance data instance_data = {} for iinfo, beinfo in i_list: nic_data = [{"mac": n.mac, "ip": n.ip, "bridge": n.bridge} for n in iinfo.nics] pir = { "tags": list(iinfo.GetTags()), "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": dsk.mode} for dsk in iinfo.disks], "disk_template": iinfo.disk_template, "hypervisor": iinfo.hypervisor, } instance_data[iinfo.name] = pir data["instances"] = instance_data self.in_data = data def _AddNewInstance(self): """Add new instance data to allocator structure. This in combination with _AllocatorGetClusterData will create the correct structure needed as input for the allocator. The checks for the completeness of the opcode must have already been done. """ data = self.in_data disk_space = _ComputeDiskSize(self.disk_template, self.disks) if self.disk_template in constants.DTS_NET_MIRROR: self.required_nodes = 2 else: self.required_nodes = 1 request = { "type": "allocate", "name": self.name, "disk_template": self.disk_template, "tags": self.tags, "os": self.os, "vcpus": self.vcpus, "memory": self.mem_size, "disks": self.disks, "disk_space_total": disk_space, "nics": self.nics, "required_nodes": self.required_nodes, } data["request"] = request def _AddRelocateInstance(self): """Add relocate instance data to allocator structure. This in combination with _IAllocatorGetClusterData will create the correct structure needed as input for the allocator. The checks for the completeness of the opcode must have already been done. """ instance = self.lu.cfg.GetInstanceInfo(self.name) if instance is None: raise errors.ProgrammerError("Unknown instance '%s' passed to" " IAllocator" % self.name) if instance.disk_template not in constants.DTS_NET_MIRROR: raise errors.OpPrereqError("Can't relocate non-mirrored instances") if len(instance.secondary_nodes) != 1: raise errors.OpPrereqError("Instance has not exactly one secondary node") self.required_nodes = 1 disk_sizes = [{'size': disk.size} for disk in instance.disks] disk_space = _ComputeDiskSize(instance.disk_template, disk_sizes) request = { "type": "relocate", "name": self.name, "disk_space_total": disk_space, "required_nodes": self.required_nodes, "relocate_from": self.relocate_from, } self.in_data["request"] = request def _BuildInputData(self): """Build input data structures. """ self._ComputeClusterData() if self.mode == constants.IALLOCATOR_MODE_ALLOC: self._AddNewInstance() else: self._AddRelocateInstance() self.in_text = serializer.Dump(self.in_data) def Run(self, name, validate=True, call_fn=None): """Run an instance allocator and return the results. """ if call_fn is None: call_fn = self.lu.rpc.call_iallocator_runner data = self.in_text result = call_fn(self.lu.cfg.GetMasterNode(), name, self.in_text) result.Raise() if not isinstance(result.data, (list, tuple)) or len(result.data) != 4: raise errors.OpExecError("Invalid result from master iallocator runner") rcode, stdout, stderr, fail = result.data if rcode == constants.IARUN_NOTFOUND: raise errors.OpExecError("Can't find allocator '%s'" % name) elif rcode == constants.IARUN_FAILURE: raise errors.OpExecError("Instance allocator call failed: %s," " output: %s" % (fail, stdout+stderr)) self.out_text = stdout if validate: self._ValidateResult() def _ValidateResult(self): """Process the allocator results. This will process and if successful save the result in self.out_data and the other parameters. """ try: rdict = serializer.Load(self.out_text) except Exception, err: raise errors.OpExecError("Can't parse iallocator results: %s" % str(err)) if not isinstance(rdict, dict): raise errors.OpExecError("Can't parse iallocator results: not a dict") for key in "success", "info", "nodes": if key not in rdict: raise errors.OpExecError("Can't parse iallocator results:" " missing key '%s'" % key) setattr(self, key, rdict[key]) if not isinstance(rdict["nodes"], list): raise errors.OpExecError("Can't parse iallocator results: 'nodes' key" " is not a list") self.out_data = rdict class LUTestAllocator(NoHooksLU): """Run allocator tests. This LU runs the allocator tests """ _OP_REQP = ["direction", "mode", "name"] def CheckPrereq(self): """Check prerequisites. This checks the opcode parameters depending on the director and mode test. """ if self.op.mode == constants.IALLOCATOR_MODE_ALLOC: for attr in ["name", "mem_size", "disks", "disk_template", "os", "tags", "nics", "vcpus"]: if not hasattr(self.op, attr): raise errors.OpPrereqError("Missing attribute '%s' on opcode input" % attr) iname = self.cfg.ExpandInstanceName(self.op.name) if iname is not None: raise errors.OpPrereqError("Instance '%s' already in the cluster" % iname) if not isinstance(self.op.nics, list): raise errors.OpPrereqError("Invalid parameter 'nics'") for row in self.op.nics: if (not isinstance(row, dict) or "mac" not in row or "ip" not in row or "bridge" not in row): raise errors.OpPrereqError("Invalid contents of the" " 'nics' parameter") if not isinstance(self.op.disks, list): raise errors.OpPrereqError("Invalid parameter 'disks'") for row in self.op.disks: if (not isinstance(row, dict) or "size" not in row or not isinstance(row["size"], int) or "mode" not in row or row["mode"] not in ['r', 'w']): raise errors.OpPrereqError("Invalid contents of the" " 'disks' parameter") 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"): raise errors.OpPrereqError("Missing attribute 'name' on opcode input") fname = self.cfg.ExpandInstanceName(self.op.name) if fname is None: raise errors.OpPrereqError("Instance '%s' not found for relocation" % self.op.name) self.op.name = fname self.relocate_from = self.cfg.GetInstanceInfo(fname).secondary_nodes else: raise errors.OpPrereqError("Invalid test allocator mode '%s'" % self.op.mode) if self.op.direction == constants.IALLOCATOR_DIR_OUT: if not hasattr(self.op, "allocator") or self.op.allocator is None: raise errors.OpPrereqError("Missing allocator name") elif self.op.direction != constants.IALLOCATOR_DIR_IN: raise errors.OpPrereqError("Wrong allocator test '%s'" % self.op.direction) def Exec(self, feedback_fn): """Run the allocator test. """ if self.op.mode == constants.IALLOCATOR_MODE_ALLOC: ial = IAllocator(self, mode=self.op.mode, name=self.op.name, mem_size=self.op.mem_size, disks=self.op.disks, disk_template=self.op.disk_template, os=self.op.os, tags=self.op.tags, nics=self.op.nics, vcpus=self.op.vcpus, hypervisor=self.op.hypervisor, ) else: ial = IAllocator(self, mode=self.op.mode, name=self.op.name, relocate_from=list(self.relocate_from), ) if self.op.direction == constants.IALLOCATOR_DIR_IN: result = ial.in_text else: ial.Run(self.op.allocator, validate=False) result = ial.out_text return result