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#
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#
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# Copyright (C) 2006, 2007, 2008 Google Inc.
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful, but
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# WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
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# General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
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# 02110-1301, USA.
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"""Module implementing the master-side code."""
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# pylint: disable-msg=W0613,W0201
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import os
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import os.path
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import time
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import tempfile
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import re
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import platform
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import logging
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import copy
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import random
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from ganeti import ssh
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from ganeti import utils
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from ganeti import errors
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from ganeti import hypervisor
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from ganeti import locking
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from ganeti import constants
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from ganeti import objects
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from ganeti import opcodes
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from ganeti import serializer
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from ganeti import ssconf
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class LogicalUnit(object):
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  """Logical Unit base class.
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  Subclasses must follow these rules:
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    - implement ExpandNames
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    - implement CheckPrereq
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    - implement Exec
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    - implement BuildHooksEnv
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    - redefine HPATH and HTYPE
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    - optionally redefine their run requirements:
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        REQ_BGL: the LU needs to hold the Big Ganeti Lock exclusively
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  Note that all commands require root permissions.
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  """
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  HPATH = None
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  HTYPE = None
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  _OP_REQP = []
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  REQ_BGL = True
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  def __init__(self, processor, op, context, rpc):
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    """Constructor for LogicalUnit.
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    This needs to be overriden in derived classes in order to check op
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    validity.
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    """
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    self.proc = processor
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    self.op = op
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    self.cfg = context.cfg
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    self.context = context
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    self.rpc = rpc
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    # Dicts used to declare locking needs to mcpu
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    self.needed_locks = None
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    self.acquired_locks = {}
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    self.share_locks = dict(((i, 0) for i in locking.LEVELS))
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    self.add_locks = {}
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    self.remove_locks = {}
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    # Used to force good behavior when calling helper functions
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    self.recalculate_locks = {}
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    self.__ssh = None
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    # logging
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    self.LogWarning = processor.LogWarning
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    self.LogInfo = processor.LogInfo
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93
    for attr_name in self._OP_REQP:
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      attr_val = getattr(op, attr_name, None)
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      if attr_val is None:
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        raise errors.OpPrereqError("Required parameter '%s' missing" %
97
                                   attr_name)
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    self.CheckArguments()
99

    
100
  def __GetSSH(self):
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    """Returns the SshRunner object
102

103
    """
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    if not self.__ssh:
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      self.__ssh = ssh.SshRunner(self.cfg.GetClusterName())
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    return self.__ssh
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108
  ssh = property(fget=__GetSSH)
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  def CheckArguments(self):
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    """Check syntactic validity for the opcode arguments.
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    This method is for doing a simple syntactic check and ensure
114
    validity of opcode parameters, without any cluster-related
115
    checks. While the same can be accomplished in ExpandNames and/or
116
    CheckPrereq, doing these separate is better because:
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118
      - ExpandNames is left as as purely a lock-related function
119
      - CheckPrereq is run after we have aquired locks (and possible
120
        waited for them)
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122
    The function is allowed to change the self.op attribute so that
123
    later methods can no longer worry about missing parameters.
124

125
    """
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    pass
127

    
128
  def ExpandNames(self):
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    """Expand names for this LU.
130

131
    This method is called before starting to execute the opcode, and it should
132
    update all the parameters of the opcode to their canonical form (e.g. a
133
    short node name must be fully expanded after this method has successfully
134
    completed). This way locking, hooks, logging, ecc. can work correctly.
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136
    LUs which implement this method must also populate the self.needed_locks
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    member, as a dict with lock levels as keys, and a list of needed lock names
138
    as values. Rules:
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140
      - use an empty dict if you don't need any lock
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      - if you don't need any lock at a particular level omit that level
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      - don't put anything for the BGL level
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      - if you want all locks at a level use locking.ALL_SET as a value
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    If you need to share locks (rather than acquire them exclusively) at one
146
    level you can modify self.share_locks, setting a true value (usually 1) for
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    that level. By default locks are not shared.
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    Examples::
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      # Acquire all nodes and one instance
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      self.needed_locks = {
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        locking.LEVEL_NODE: locking.ALL_SET,
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        locking.LEVEL_INSTANCE: ['instance1.example.tld'],
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      }
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      # Acquire just two nodes
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      self.needed_locks = {
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        locking.LEVEL_NODE: ['node1.example.tld', 'node2.example.tld'],
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      }
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      # Acquire no locks
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      self.needed_locks = {} # No, you can't leave it to the default value None
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163
    """
164
    # The implementation of this method is mandatory only if the new LU is
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    # concurrent, so that old LUs don't need to be changed all at the same
166
    # time.
167
    if self.REQ_BGL:
168
      self.needed_locks = {} # Exclusive LUs don't need locks.
169
    else:
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      raise NotImplementedError
171

    
172
  def DeclareLocks(self, level):
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    """Declare LU locking needs for a level
174

175
    While most LUs can just declare their locking needs at ExpandNames time,
176
    sometimes there's the need to calculate some locks after having acquired
177
    the ones before. This function is called just before acquiring locks at a
178
    particular level, but after acquiring the ones at lower levels, and permits
179
    such calculations. It can be used to modify self.needed_locks, and by
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    default it does nothing.
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182
    This function is only called if you have something already set in
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    self.needed_locks for the level.
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    @param level: Locking level which is going to be locked
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    @type level: member of ganeti.locking.LEVELS
187

188
    """
189

    
190
  def CheckPrereq(self):
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    """Check prerequisites for this LU.
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193
    This method should check that the prerequisites for the execution
194
    of this LU are fulfilled. It can do internode communication, but
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    it should be idempotent - no cluster or system changes are
196
    allowed.
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198
    The method should raise errors.OpPrereqError in case something is
199
    not fulfilled. Its return value is ignored.
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201
    This method should also update all the parameters of the opcode to
202
    their canonical form if it hasn't been done by ExpandNames before.
203

204
    """
205
    raise NotImplementedError
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207
  def Exec(self, feedback_fn):
208
    """Execute the LU.
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210
    This method should implement the actual work. It should raise
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    errors.OpExecError for failures that are somewhat dealt with in
212
    code, or expected.
213

214
    """
215
    raise NotImplementedError
216

    
217
  def BuildHooksEnv(self):
218
    """Build hooks environment for this LU.
219

220
    This method should return a three-node tuple consisting of: a dict
221
    containing the environment that will be used for running the
222
    specific hook for this LU, a list of node names on which the hook
223
    should run before the execution, and a list of node names on which
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    the hook should run after the execution.
225

226
    The keys of the dict must not have 'GANETI_' prefixed as this will
227
    be handled in the hooks runner. Also note additional keys will be
228
    added by the hooks runner. If the LU doesn't define any
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    environment, an empty dict (and not None) should be returned.
230

231
    No nodes should be returned as an empty list (and not None).
232

233
    Note that if the HPATH for a LU class is None, this function will
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    not be called.
235

236
    """
237
    raise NotImplementedError
238

    
239
  def HooksCallBack(self, phase, hook_results, feedback_fn, lu_result):
240
    """Notify the LU about the results of its hooks.
241

242
    This method is called every time a hooks phase is executed, and notifies
243
    the Logical Unit about the hooks' result. The LU can then use it to alter
244
    its result based on the hooks.  By default the method does nothing and the
245
    previous result is passed back unchanged but any LU can define it if it
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    wants to use the local cluster hook-scripts somehow.
247

248
    @param phase: one of L{constants.HOOKS_PHASE_POST} or
249
        L{constants.HOOKS_PHASE_PRE}; it denotes the hooks phase
250
    @param hook_results: the results of the multi-node hooks rpc call
251
    @param feedback_fn: function used send feedback back to the caller
252
    @param lu_result: the previous Exec result this LU had, or None
253
        in the PRE phase
254
    @return: the new Exec result, based on the previous result
255
        and hook results
256

257
    """
258
    return lu_result
259

    
260
  def _ExpandAndLockInstance(self):
261
    """Helper function to expand and lock an instance.
262

263
    Many LUs that work on an instance take its name in self.op.instance_name
264
    and need to expand it and then declare the expanded name for locking. This
265
    function does it, and then updates self.op.instance_name to the expanded
266
    name. It also initializes needed_locks as a dict, if this hasn't been done
267
    before.
268

269
    """
270
    if self.needed_locks is None:
271
      self.needed_locks = {}
272
    else:
273
      assert locking.LEVEL_INSTANCE not in self.needed_locks, \
274
        "_ExpandAndLockInstance called with instance-level locks set"
275
    expanded_name = self.cfg.ExpandInstanceName(self.op.instance_name)
276
    if expanded_name is None:
277
      raise errors.OpPrereqError("Instance '%s' not known" %
278
                                  self.op.instance_name)
279
    self.needed_locks[locking.LEVEL_INSTANCE] = expanded_name
280
    self.op.instance_name = expanded_name
281

    
282
  def _LockInstancesNodes(self, primary_only=False):
283
    """Helper function to declare instances' nodes for locking.
284

285
    This function should be called after locking one or more instances to lock
286
    their nodes. Its effect is populating self.needed_locks[locking.LEVEL_NODE]
287
    with all primary or secondary nodes for instances already locked and
288
    present in self.needed_locks[locking.LEVEL_INSTANCE].
289

290
    It should be called from DeclareLocks, and for safety only works if
291
    self.recalculate_locks[locking.LEVEL_NODE] is set.
292

293
    In the future it may grow parameters to just lock some instance's nodes, or
294
    to just lock primaries or secondary nodes, if needed.
295

296
    If should be called in DeclareLocks in a way similar to::
297

298
      if level == locking.LEVEL_NODE:
299
        self._LockInstancesNodes()
300

301
    @type primary_only: boolean
302
    @param primary_only: only lock primary nodes of locked instances
303

304
    """
305
    assert locking.LEVEL_NODE in self.recalculate_locks, \
306
      "_LockInstancesNodes helper function called with no nodes to recalculate"
307

    
308
    # TODO: check if we're really been called with the instance locks held
309

    
310
    # For now we'll replace self.needed_locks[locking.LEVEL_NODE], but in the
311
    # future we might want to have different behaviors depending on the value
312
    # of self.recalculate_locks[locking.LEVEL_NODE]
313
    wanted_nodes = []
314
    for instance_name in self.acquired_locks[locking.LEVEL_INSTANCE]:
315
      instance = self.context.cfg.GetInstanceInfo(instance_name)
316
      wanted_nodes.append(instance.primary_node)
317
      if not primary_only:
318
        wanted_nodes.extend(instance.secondary_nodes)
319

    
320
    if self.recalculate_locks[locking.LEVEL_NODE] == constants.LOCKS_REPLACE:
321
      self.needed_locks[locking.LEVEL_NODE] = wanted_nodes
322
    elif self.recalculate_locks[locking.LEVEL_NODE] == constants.LOCKS_APPEND:
323
      self.needed_locks[locking.LEVEL_NODE].extend(wanted_nodes)
324

    
325
    del self.recalculate_locks[locking.LEVEL_NODE]
326

    
327

    
328
class NoHooksLU(LogicalUnit):
329
  """Simple LU which runs no hooks.
330

331
  This LU is intended as a parent for other LogicalUnits which will
332
  run no hooks, in order to reduce duplicate code.
333

334
  """
335
  HPATH = None
336
  HTYPE = None
337

    
338

    
339
def _GetWantedNodes(lu, nodes):
340
  """Returns list of checked and expanded node names.
341

342
  @type lu: L{LogicalUnit}
343
  @param lu: the logical unit on whose behalf we execute
344
  @type nodes: list
345
  @param nodes: list of node names or None for all nodes
346
  @rtype: list
347
  @return: the list of nodes, sorted
348
  @raise errors.OpProgrammerError: if the nodes parameter is wrong type
349

350
  """
351
  if not isinstance(nodes, list):
352
    raise errors.OpPrereqError("Invalid argument type 'nodes'")
353

    
354
  if not nodes:
355
    raise errors.ProgrammerError("_GetWantedNodes should only be called with a"
356
      " non-empty list of nodes whose name is to be expanded.")
357

    
358
  wanted = []
359
  for name in nodes:
360
    node = lu.cfg.ExpandNodeName(name)
361
    if node is None:
362
      raise errors.OpPrereqError("No such node name '%s'" % name)
363
    wanted.append(node)
364

    
365
  return utils.NiceSort(wanted)
366

    
367

    
368
def _GetWantedInstances(lu, instances):
369
  """Returns list of checked and expanded instance names.
370

371
  @type lu: L{LogicalUnit}
372
  @param lu: the logical unit on whose behalf we execute
373
  @type instances: list
374
  @param instances: list of instance names or None for all instances
375
  @rtype: list
376
  @return: the list of instances, sorted
377
  @raise errors.OpPrereqError: if the instances parameter is wrong type
378
  @raise errors.OpPrereqError: if any of the passed instances is not found
379

380
  """
381
  if not isinstance(instances, list):
382
    raise errors.OpPrereqError("Invalid argument type 'instances'")
383

    
384
  if instances:
385
    wanted = []
386

    
387
    for name in instances:
388
      instance = lu.cfg.ExpandInstanceName(name)
389
      if instance is None:
390
        raise errors.OpPrereqError("No such instance name '%s'" % name)
391
      wanted.append(instance)
392

    
393
  else:
394
    wanted = utils.NiceSort(lu.cfg.GetInstanceList())
395
  return wanted
396

    
397

    
398
def _CheckOutputFields(static, dynamic, selected):
399
  """Checks whether all selected fields are valid.
400

401
  @type static: L{utils.FieldSet}
402
  @param static: static fields set
403
  @type dynamic: L{utils.FieldSet}
404
  @param dynamic: dynamic fields set
405

406
  """
407
  f = utils.FieldSet()
408
  f.Extend(static)
409
  f.Extend(dynamic)
410

    
411
  delta = f.NonMatching(selected)
412
  if delta:
413
    raise errors.OpPrereqError("Unknown output fields selected: %s"
414
                               % ",".join(delta))
415

    
416

    
417
def _CheckBooleanOpField(op, name):
418
  """Validates boolean opcode parameters.
419

420
  This will ensure that an opcode parameter is either a boolean value,
421
  or None (but that it always exists).
422

423
  """
424
  val = getattr(op, name, None)
425
  if not (val is None or isinstance(val, bool)):
426
    raise errors.OpPrereqError("Invalid boolean parameter '%s' (%s)" %
427
                               (name, str(val)))
428
  setattr(op, name, val)
429

    
430

    
431
def _CheckNodeOnline(lu, node):
432
  """Ensure that a given node is online.
433

434
  @param lu: the LU on behalf of which we make the check
435
  @param node: the node to check
436
  @raise errors.OpPrereqError: if the node is offline
437

438
  """
439
  if lu.cfg.GetNodeInfo(node).offline:
440
    raise errors.OpPrereqError("Can't use offline node %s" % node)
441

    
442

    
443
def _CheckNodeNotDrained(lu, node):
444
  """Ensure that a given node is not drained.
445

446
  @param lu: the LU on behalf of which we make the check
447
  @param node: the node to check
448
  @raise errors.OpPrereqError: if the node is drained
449

450
  """
451
  if lu.cfg.GetNodeInfo(node).drained:
452
    raise errors.OpPrereqError("Can't use drained node %s" % node)
453

    
454

    
455
def _BuildInstanceHookEnv(name, primary_node, secondary_nodes, os_type, status,
456
                          memory, vcpus, nics, disk_template, disks):
457
  """Builds instance related env variables for hooks
458

459
  This builds the hook environment from individual variables.
460

461
  @type name: string
462
  @param name: the name of the instance
463
  @type primary_node: string
464
  @param primary_node: the name of the instance's primary node
465
  @type secondary_nodes: list
466
  @param secondary_nodes: list of secondary nodes as strings
467
  @type os_type: string
468
  @param os_type: the name of the instance's OS
469
  @type status: boolean
470
  @param status: the should_run status of the instance
471
  @type memory: string
472
  @param memory: the memory size of the instance
473
  @type vcpus: string
474
  @param vcpus: the count of VCPUs the instance has
475
  @type nics: list
476
  @param nics: list of tuples (ip, bridge, mac) representing
477
      the NICs the instance  has
478
  @type disk_template: string
479
  @param disk_template: the distk template of the instance
480
  @type disks: list
481
  @param disks: the list of (size, mode) pairs
482
  @rtype: dict
483
  @return: the hook environment for this instance
484

485
  """
486
  if status:
487
    str_status = "up"
488
  else:
489
    str_status = "down"
490
  env = {
491
    "OP_TARGET": name,
492
    "INSTANCE_NAME": name,
493
    "INSTANCE_PRIMARY": primary_node,
494
    "INSTANCE_SECONDARIES": " ".join(secondary_nodes),
495
    "INSTANCE_OS_TYPE": os_type,
496
    "INSTANCE_STATUS": str_status,
497
    "INSTANCE_MEMORY": memory,
498
    "INSTANCE_VCPUS": vcpus,
499
    "INSTANCE_DISK_TEMPLATE": disk_template,
500
  }
501

    
502
  if nics:
503
    nic_count = len(nics)
504
    for idx, (ip, bridge, mac) in enumerate(nics):
505
      if ip is None:
506
        ip = ""
507
      env["INSTANCE_NIC%d_IP" % idx] = ip
508
      env["INSTANCE_NIC%d_BRIDGE" % idx] = bridge
509
      env["INSTANCE_NIC%d_MAC" % idx] = mac
510
  else:
511
    nic_count = 0
512

    
513
  env["INSTANCE_NIC_COUNT"] = nic_count
514

    
515
  if disks:
516
    disk_count = len(disks)
517
    for idx, (size, mode) in enumerate(disks):
518
      env["INSTANCE_DISK%d_SIZE" % idx] = size
519
      env["INSTANCE_DISK%d_MODE" % idx] = mode
520
  else:
521
    disk_count = 0
522

    
523
  env["INSTANCE_DISK_COUNT"] = disk_count
524

    
525
  return env
526

    
527

    
528
def _BuildInstanceHookEnvByObject(lu, instance, override=None):
529
  """Builds instance related env variables for hooks from an object.
530

531
  @type lu: L{LogicalUnit}
532
  @param lu: the logical unit on whose behalf we execute
533
  @type instance: L{objects.Instance}
534
  @param instance: the instance for which we should build the
535
      environment
536
  @type override: dict
537
  @param override: dictionary with key/values that will override
538
      our values
539
  @rtype: dict
540
  @return: the hook environment dictionary
541

542
  """
543
  bep = lu.cfg.GetClusterInfo().FillBE(instance)
544
  args = {
545
    'name': instance.name,
546
    'primary_node': instance.primary_node,
547
    'secondary_nodes': instance.secondary_nodes,
548
    'os_type': instance.os,
549
    'status': instance.admin_up,
550
    'memory': bep[constants.BE_MEMORY],
551
    'vcpus': bep[constants.BE_VCPUS],
552
    'nics': [(nic.ip, nic.bridge, nic.mac) for nic in instance.nics],
553
    'disk_template': instance.disk_template,
554
    'disks': [(disk.size, disk.mode) for disk in instance.disks],
555
  }
556
  if override:
557
    args.update(override)
558
  return _BuildInstanceHookEnv(**args)
559

    
560

    
561
def _AdjustCandidatePool(lu):
562
  """Adjust the candidate pool after node operations.
563

564
  """
565
  mod_list = lu.cfg.MaintainCandidatePool()
566
  if mod_list:
567
    lu.LogInfo("Promoted nodes to master candidate role: %s",
568
               ", ".join(node.name for node in mod_list))
569
    for name in mod_list:
570
      lu.context.ReaddNode(name)
571
  mc_now, mc_max = lu.cfg.GetMasterCandidateStats()
572
  if mc_now > mc_max:
573
    lu.LogInfo("Note: more nodes are candidates (%d) than desired (%d)" %
574
               (mc_now, mc_max))
575

    
576

    
577
def _CheckInstanceBridgesExist(lu, instance):
578
  """Check that the brigdes needed by an instance exist.
579

580
  """
581
  # check bridges existance
582
  brlist = [nic.bridge for nic in instance.nics]
583
  result = lu.rpc.call_bridges_exist(instance.primary_node, brlist)
584
  result.Raise()
585
  if not result.data:
586
    raise errors.OpPrereqError("One or more target bridges %s does not"
587
                               " exist on destination node '%s'" %
588
                               (brlist, instance.primary_node))
589

    
590

    
591
class LUDestroyCluster(NoHooksLU):
592
  """Logical unit for destroying the cluster.
593

594
  """
595
  _OP_REQP = []
596

    
597
  def CheckPrereq(self):
598
    """Check prerequisites.
599

600
    This checks whether the cluster is empty.
601

602
    Any errors are signalled by raising errors.OpPrereqError.
603

604
    """
605
    master = self.cfg.GetMasterNode()
606

    
607
    nodelist = self.cfg.GetNodeList()
608
    if len(nodelist) != 1 or nodelist[0] != master:
609
      raise errors.OpPrereqError("There are still %d node(s) in"
610
                                 " this cluster." % (len(nodelist) - 1))
611
    instancelist = self.cfg.GetInstanceList()
612
    if instancelist:
613
      raise errors.OpPrereqError("There are still %d instance(s) in"
614
                                 " this cluster." % len(instancelist))
615

    
616
  def Exec(self, feedback_fn):
617
    """Destroys the cluster.
618

619
    """
620
    master = self.cfg.GetMasterNode()
621
    result = self.rpc.call_node_stop_master(master, False)
622
    result.Raise()
623
    if not result.data:
624
      raise errors.OpExecError("Could not disable the master role")
625
    priv_key, pub_key, _ = ssh.GetUserFiles(constants.GANETI_RUNAS)
626
    utils.CreateBackup(priv_key)
627
    utils.CreateBackup(pub_key)
628
    return master
629

    
630

    
631
class LUVerifyCluster(LogicalUnit):
632
  """Verifies the cluster status.
633

634
  """
635
  HPATH = "cluster-verify"
636
  HTYPE = constants.HTYPE_CLUSTER
637
  _OP_REQP = ["skip_checks"]
638
  REQ_BGL = False
639

    
640
  def ExpandNames(self):
641
    self.needed_locks = {
642
      locking.LEVEL_NODE: locking.ALL_SET,
643
      locking.LEVEL_INSTANCE: locking.ALL_SET,
644
    }
645
    self.share_locks = dict(((i, 1) for i in locking.LEVELS))
646

    
647
  def _VerifyNode(self, nodeinfo, file_list, local_cksum,
648
                  node_result, feedback_fn, master_files,
649
                  drbd_map, vg_name):
650
    """Run multiple tests against a node.
651

652
    Test list:
653

654
      - compares ganeti version
655
      - checks vg existance and size > 20G
656
      - checks config file checksum
657
      - checks ssh to other nodes
658

659
    @type nodeinfo: L{objects.Node}
660
    @param nodeinfo: the node to check
661
    @param file_list: required list of files
662
    @param local_cksum: dictionary of local files and their checksums
663
    @param node_result: the results from the node
664
    @param feedback_fn: function used to accumulate results
665
    @param master_files: list of files that only masters should have
666
    @param drbd_map: the useddrbd minors for this node, in
667
        form of minor: (instance, must_exist) which correspond to instances
668
        and their running status
669
    @param vg_name: Ganeti Volume Group (result of self.cfg.GetVGName())
670

671
    """
672
    node = nodeinfo.name
673

    
674
    # main result, node_result should be a non-empty dict
675
    if not node_result or not isinstance(node_result, dict):
676
      feedback_fn("  - ERROR: unable to verify node %s." % (node,))
677
      return True
678

    
679
    # compares ganeti version
680
    local_version = constants.PROTOCOL_VERSION
681
    remote_version = node_result.get('version', None)
682
    if not (remote_version and isinstance(remote_version, (list, tuple)) and
683
            len(remote_version) == 2):
684
      feedback_fn("  - ERROR: connection to %s failed" % (node))
685
      return True
686

    
687
    if local_version != remote_version[0]:
688
      feedback_fn("  - ERROR: incompatible protocol versions: master %s,"
689
                  " node %s %s" % (local_version, node, remote_version[0]))
690
      return True
691

    
692
    # node seems compatible, we can actually try to look into its results
693

    
694
    bad = False
695

    
696
    # full package version
697
    if constants.RELEASE_VERSION != remote_version[1]:
698
      feedback_fn("  - WARNING: software version mismatch: master %s,"
699
                  " node %s %s" %
700
                  (constants.RELEASE_VERSION, node, remote_version[1]))
701

    
702
    # checks vg existence and size > 20G
703
    if vg_name is not None:
704
      vglist = node_result.get(constants.NV_VGLIST, None)
705
      if not vglist:
706
        feedback_fn("  - ERROR: unable to check volume groups on node %s." %
707
                        (node,))
708
        bad = True
709
      else:
710
        vgstatus = utils.CheckVolumeGroupSize(vglist, vg_name,
711
                                              constants.MIN_VG_SIZE)
712
        if vgstatus:
713
          feedback_fn("  - ERROR: %s on node %s" % (vgstatus, node))
714
          bad = True
715

    
716
    # checks config file checksum
717

    
718
    remote_cksum = node_result.get(constants.NV_FILELIST, None)
719
    if not isinstance(remote_cksum, dict):
720
      bad = True
721
      feedback_fn("  - ERROR: node hasn't returned file checksum data")
722
    else:
723
      for file_name in file_list:
724
        node_is_mc = nodeinfo.master_candidate
725
        must_have_file = file_name not in master_files
726
        if file_name not in remote_cksum:
727
          if node_is_mc or must_have_file:
728
            bad = True
729
            feedback_fn("  - ERROR: file '%s' missing" % file_name)
730
        elif remote_cksum[file_name] != local_cksum[file_name]:
731
          if node_is_mc or must_have_file:
732
            bad = True
733
            feedback_fn("  - ERROR: file '%s' has wrong checksum" % file_name)
734
          else:
735
            # not candidate and this is not a must-have file
736
            bad = True
737
            feedback_fn("  - ERROR: non master-candidate has old/wrong file"
738
                        " '%s'" % file_name)
739
        else:
740
          # all good, except non-master/non-must have combination
741
          if not node_is_mc and not must_have_file:
742
            feedback_fn("  - ERROR: file '%s' should not exist on non master"
743
                        " candidates" % file_name)
744

    
745
    # checks ssh to any
746

    
747
    if constants.NV_NODELIST not in node_result:
748
      bad = True
749
      feedback_fn("  - ERROR: node hasn't returned node ssh connectivity data")
750
    else:
751
      if node_result[constants.NV_NODELIST]:
752
        bad = True
753
        for node in node_result[constants.NV_NODELIST]:
754
          feedback_fn("  - ERROR: ssh communication with node '%s': %s" %
755
                          (node, node_result[constants.NV_NODELIST][node]))
756

    
757
    if constants.NV_NODENETTEST not in node_result:
758
      bad = True
759
      feedback_fn("  - ERROR: node hasn't returned node tcp connectivity data")
760
    else:
761
      if node_result[constants.NV_NODENETTEST]:
762
        bad = True
763
        nlist = utils.NiceSort(node_result[constants.NV_NODENETTEST].keys())
764
        for node in nlist:
765
          feedback_fn("  - ERROR: tcp communication with node '%s': %s" %
766
                          (node, node_result[constants.NV_NODENETTEST][node]))
767

    
768
    hyp_result = node_result.get(constants.NV_HYPERVISOR, None)
769
    if isinstance(hyp_result, dict):
770
      for hv_name, hv_result in hyp_result.iteritems():
771
        if hv_result is not None:
772
          feedback_fn("  - ERROR: hypervisor %s verify failure: '%s'" %
773
                      (hv_name, hv_result))
774

    
775
    # check used drbd list
776
    if vg_name is not None:
777
      used_minors = node_result.get(constants.NV_DRBDLIST, [])
778
      if not isinstance(used_minors, (tuple, list)):
779
        feedback_fn("  - ERROR: cannot parse drbd status file: %s" %
780
                    str(used_minors))
781
      else:
782
        for minor, (iname, must_exist) in drbd_map.items():
783
          if minor not in used_minors and must_exist:
784
            feedback_fn("  - ERROR: drbd minor %d of instance %s is"
785
                        " not active" % (minor, iname))
786
            bad = True
787
        for minor in used_minors:
788
          if minor not in drbd_map:
789
            feedback_fn("  - ERROR: unallocated drbd minor %d is in use" %
790
                        minor)
791
            bad = True
792

    
793
    return bad
794

    
795
  def _VerifyInstance(self, instance, instanceconfig, node_vol_is,
796
                      node_instance, feedback_fn, n_offline):
797
    """Verify an instance.
798

799
    This function checks to see if the required block devices are
800
    available on the instance's node.
801

802
    """
803
    bad = False
804

    
805
    node_current = instanceconfig.primary_node
806

    
807
    node_vol_should = {}
808
    instanceconfig.MapLVsByNode(node_vol_should)
809

    
810
    for node in node_vol_should:
811
      if node in n_offline:
812
        # ignore missing volumes on offline nodes
813
        continue
814
      for volume in node_vol_should[node]:
815
        if node not in node_vol_is or volume not in node_vol_is[node]:
816
          feedback_fn("  - ERROR: volume %s missing on node %s" %
817
                          (volume, node))
818
          bad = True
819

    
820
    if instanceconfig.admin_up:
821
      if ((node_current not in node_instance or
822
          not instance in node_instance[node_current]) and
823
          node_current not in n_offline):
824
        feedback_fn("  - ERROR: instance %s not running on node %s" %
825
                        (instance, node_current))
826
        bad = True
827

    
828
    for node in node_instance:
829
      if (not node == node_current):
830
        if instance in node_instance[node]:
831
          feedback_fn("  - ERROR: instance %s should not run on node %s" %
832
                          (instance, node))
833
          bad = True
834

    
835
    return bad
836

    
837
  def _VerifyOrphanVolumes(self, node_vol_should, node_vol_is, feedback_fn):
838
    """Verify if there are any unknown volumes in the cluster.
839

840
    The .os, .swap and backup volumes are ignored. All other volumes are
841
    reported as unknown.
842

843
    """
844
    bad = False
845

    
846
    for node in node_vol_is:
847
      for volume in node_vol_is[node]:
848
        if node not in node_vol_should or volume not in node_vol_should[node]:
849
          feedback_fn("  - ERROR: volume %s on node %s should not exist" %
850
                      (volume, node))
851
          bad = True
852
    return bad
853

    
854
  def _VerifyOrphanInstances(self, instancelist, node_instance, feedback_fn):
855
    """Verify the list of running instances.
856

857
    This checks what instances are running but unknown to the cluster.
858

859
    """
860
    bad = False
861
    for node in node_instance:
862
      for runninginstance in node_instance[node]:
863
        if runninginstance not in instancelist:
864
          feedback_fn("  - ERROR: instance %s on node %s should not exist" %
865
                          (runninginstance, node))
866
          bad = True
867
    return bad
868

    
869
  def _VerifyNPlusOneMemory(self, node_info, instance_cfg, feedback_fn):
870
    """Verify N+1 Memory Resilience.
871

872
    Check that if one single node dies we can still start all the instances it
873
    was primary for.
874

875
    """
876
    bad = False
877

    
878
    for node, nodeinfo in node_info.iteritems():
879
      # This code checks that every node which is now listed as secondary has
880
      # enough memory to host all instances it is supposed to should a single
881
      # other node in the cluster fail.
882
      # FIXME: not ready for failover to an arbitrary node
883
      # FIXME: does not support file-backed instances
884
      # WARNING: we currently take into account down instances as well as up
885
      # ones, considering that even if they're down someone might want to start
886
      # them even in the event of a node failure.
887
      for prinode, instances in nodeinfo['sinst-by-pnode'].iteritems():
888
        needed_mem = 0
889
        for instance in instances:
890
          bep = self.cfg.GetClusterInfo().FillBE(instance_cfg[instance])
891
          if bep[constants.BE_AUTO_BALANCE]:
892
            needed_mem += bep[constants.BE_MEMORY]
893
        if nodeinfo['mfree'] < needed_mem:
894
          feedback_fn("  - ERROR: not enough memory on node %s to accomodate"
895
                      " failovers should node %s fail" % (node, prinode))
896
          bad = True
897
    return bad
898

    
899
  def CheckPrereq(self):
900
    """Check prerequisites.
901

902
    Transform the list of checks we're going to skip into a set and check that
903
    all its members are valid.
904

905
    """
906
    self.skip_set = frozenset(self.op.skip_checks)
907
    if not constants.VERIFY_OPTIONAL_CHECKS.issuperset(self.skip_set):
908
      raise errors.OpPrereqError("Invalid checks to be skipped specified")
909

    
910
  def BuildHooksEnv(self):
911
    """Build hooks env.
912

913
    Cluster-Verify hooks just rone in the post phase and their failure makes
914
    the output be logged in the verify output and the verification to fail.
915

916
    """
917
    all_nodes = self.cfg.GetNodeList()
918
    env = {
919
      "CLUSTER_TAGS": " ".join(self.cfg.GetClusterInfo().GetTags())
920
      }
921
    for node in self.cfg.GetAllNodesInfo().values():
922
      env["NODE_TAGS_%s" % node.name] = " ".join(node.GetTags())
923

    
924
    return env, [], all_nodes
925

    
926
  def Exec(self, feedback_fn):
927
    """Verify integrity of cluster, performing various test on nodes.
928

929
    """
930
    bad = False
931
    feedback_fn("* Verifying global settings")
932
    for msg in self.cfg.VerifyConfig():
933
      feedback_fn("  - ERROR: %s" % msg)
934

    
935
    vg_name = self.cfg.GetVGName()
936
    hypervisors = self.cfg.GetClusterInfo().enabled_hypervisors
937
    nodelist = utils.NiceSort(self.cfg.GetNodeList())
938
    nodeinfo = [self.cfg.GetNodeInfo(nname) for nname in nodelist]
939
    instancelist = utils.NiceSort(self.cfg.GetInstanceList())
940
    instanceinfo = dict((iname, self.cfg.GetInstanceInfo(iname))
941
                        for iname in instancelist)
942
    i_non_redundant = [] # Non redundant instances
943
    i_non_a_balanced = [] # Non auto-balanced instances
944
    n_offline = [] # List of offline nodes
945
    n_drained = [] # List of nodes being drained
946
    node_volume = {}
947
    node_instance = {}
948
    node_info = {}
949
    instance_cfg = {}
950

    
951
    # FIXME: verify OS list
952
    # do local checksums
953
    master_files = [constants.CLUSTER_CONF_FILE]
954

    
955
    file_names = ssconf.SimpleStore().GetFileList()
956
    file_names.append(constants.SSL_CERT_FILE)
957
    file_names.append(constants.RAPI_CERT_FILE)
958
    file_names.extend(master_files)
959

    
960
    local_checksums = utils.FingerprintFiles(file_names)
961

    
962
    feedback_fn("* Gathering data (%d nodes)" % len(nodelist))
963
    node_verify_param = {
964
      constants.NV_FILELIST: file_names,
965
      constants.NV_NODELIST: [node.name for node in nodeinfo
966
                              if not node.offline],
967
      constants.NV_HYPERVISOR: hypervisors,
968
      constants.NV_NODENETTEST: [(node.name, node.primary_ip,
969
                                  node.secondary_ip) for node in nodeinfo
970
                                 if not node.offline],
971
      constants.NV_INSTANCELIST: hypervisors,
972
      constants.NV_VERSION: None,
973
      constants.NV_HVINFO: self.cfg.GetHypervisorType(),
974
      }
975
    if vg_name is not None:
976
      node_verify_param[constants.NV_VGLIST] = None
977
      node_verify_param[constants.NV_LVLIST] = vg_name
978
      node_verify_param[constants.NV_DRBDLIST] = None
979
    all_nvinfo = self.rpc.call_node_verify(nodelist, node_verify_param,
980
                                           self.cfg.GetClusterName())
981

    
982
    cluster = self.cfg.GetClusterInfo()
983
    master_node = self.cfg.GetMasterNode()
984
    all_drbd_map = self.cfg.ComputeDRBDMap()
985

    
986
    for node_i in nodeinfo:
987
      node = node_i.name
988
      nresult = all_nvinfo[node].data
989

    
990
      if node_i.offline:
991
        feedback_fn("* Skipping offline node %s" % (node,))
992
        n_offline.append(node)
993
        continue
994

    
995
      if node == master_node:
996
        ntype = "master"
997
      elif node_i.master_candidate:
998
        ntype = "master candidate"
999
      elif node_i.drained:
1000
        ntype = "drained"
1001
        n_drained.append(node)
1002
      else:
1003
        ntype = "regular"
1004
      feedback_fn("* Verifying node %s (%s)" % (node, ntype))
1005

    
1006
      if all_nvinfo[node].failed or not isinstance(nresult, dict):
1007
        feedback_fn("  - ERROR: connection to %s failed" % (node,))
1008
        bad = True
1009
        continue
1010

    
1011
      node_drbd = {}
1012
      for minor, instance in all_drbd_map[node].items():
1013
        if instance not in instanceinfo:
1014
          feedback_fn("  - ERROR: ghost instance '%s' in temporary DRBD map" %
1015
                      instance)
1016
          # ghost instance should not be running, but otherwise we
1017
          # don't give double warnings (both ghost instance and
1018
          # unallocated minor in use)
1019
          node_drbd[minor] = (instance, False)
1020
        else:
1021
          instance = instanceinfo[instance]
1022
          node_drbd[minor] = (instance.name, instance.admin_up)
1023
      result = self._VerifyNode(node_i, file_names, local_checksums,
1024
                                nresult, feedback_fn, master_files,
1025
                                node_drbd, vg_name)
1026
      bad = bad or result
1027

    
1028
      lvdata = nresult.get(constants.NV_LVLIST, "Missing LV data")
1029
      if vg_name is None:
1030
        node_volume[node] = {}
1031
      elif isinstance(lvdata, basestring):
1032
        feedback_fn("  - ERROR: LVM problem on node %s: %s" %
1033
                    (node, utils.SafeEncode(lvdata)))
1034
        bad = True
1035
        node_volume[node] = {}
1036
      elif not isinstance(lvdata, dict):
1037
        feedback_fn("  - ERROR: connection to %s failed (lvlist)" % (node,))
1038
        bad = True
1039
        continue
1040
      else:
1041
        node_volume[node] = lvdata
1042

    
1043
      # node_instance
1044
      idata = nresult.get(constants.NV_INSTANCELIST, None)
1045
      if not isinstance(idata, list):
1046
        feedback_fn("  - ERROR: connection to %s failed (instancelist)" %
1047
                    (node,))
1048
        bad = True
1049
        continue
1050

    
1051
      node_instance[node] = idata
1052

    
1053
      # node_info
1054
      nodeinfo = nresult.get(constants.NV_HVINFO, None)
1055
      if not isinstance(nodeinfo, dict):
1056
        feedback_fn("  - ERROR: connection to %s failed (hvinfo)" % (node,))
1057
        bad = True
1058
        continue
1059

    
1060
      try:
1061
        node_info[node] = {
1062
          "mfree": int(nodeinfo['memory_free']),
1063
          "pinst": [],
1064
          "sinst": [],
1065
          # dictionary holding all instances this node is secondary for,
1066
          # grouped by their primary node. Each key is a cluster node, and each
1067
          # value is a list of instances which have the key as primary and the
1068
          # current node as secondary.  this is handy to calculate N+1 memory
1069
          # availability if you can only failover from a primary to its
1070
          # secondary.
1071
          "sinst-by-pnode": {},
1072
        }
1073
        # FIXME: devise a free space model for file based instances as well
1074
        if vg_name is not None:
1075
          if (constants.NV_VGLIST not in nresult or
1076
              vg_name not in nresult[constants.NV_VGLIST]):
1077
            feedback_fn("  - ERROR: node %s didn't return data for the"
1078
                        " volume group '%s' - it is either missing or broken" %
1079
                        (node, vg_name))
1080
            bad = True
1081
            continue
1082
          node_info[node]["dfree"] = int(nresult[constants.NV_VGLIST][vg_name])
1083
      except (ValueError, KeyError):
1084
        feedback_fn("  - ERROR: invalid nodeinfo value returned"
1085
                    " from node %s" % (node,))
1086
        bad = True
1087
        continue
1088

    
1089
    node_vol_should = {}
1090

    
1091
    for instance in instancelist:
1092
      feedback_fn("* Verifying instance %s" % instance)
1093
      inst_config = instanceinfo[instance]
1094
      result =  self._VerifyInstance(instance, inst_config, node_volume,
1095
                                     node_instance, feedback_fn, n_offline)
1096
      bad = bad or result
1097
      inst_nodes_offline = []
1098

    
1099
      inst_config.MapLVsByNode(node_vol_should)
1100

    
1101
      instance_cfg[instance] = inst_config
1102

    
1103
      pnode = inst_config.primary_node
1104
      if pnode in node_info:
1105
        node_info[pnode]['pinst'].append(instance)
1106
      elif pnode not in n_offline:
1107
        feedback_fn("  - ERROR: instance %s, connection to primary node"
1108
                    " %s failed" % (instance, pnode))
1109
        bad = True
1110

    
1111
      if pnode in n_offline:
1112
        inst_nodes_offline.append(pnode)
1113

    
1114
      # If the instance is non-redundant we cannot survive losing its primary
1115
      # node, so we are not N+1 compliant. On the other hand we have no disk
1116
      # templates with more than one secondary so that situation is not well
1117
      # supported either.
1118
      # FIXME: does not support file-backed instances
1119
      if len(inst_config.secondary_nodes) == 0:
1120
        i_non_redundant.append(instance)
1121
      elif len(inst_config.secondary_nodes) > 1:
1122
        feedback_fn("  - WARNING: multiple secondaries for instance %s"
1123
                    % instance)
1124

    
1125
      if not cluster.FillBE(inst_config)[constants.BE_AUTO_BALANCE]:
1126
        i_non_a_balanced.append(instance)
1127

    
1128
      for snode in inst_config.secondary_nodes:
1129
        if snode in node_info:
1130
          node_info[snode]['sinst'].append(instance)
1131
          if pnode not in node_info[snode]['sinst-by-pnode']:
1132
            node_info[snode]['sinst-by-pnode'][pnode] = []
1133
          node_info[snode]['sinst-by-pnode'][pnode].append(instance)
1134
        elif snode not in n_offline:
1135
          feedback_fn("  - ERROR: instance %s, connection to secondary node"
1136
                      " %s failed" % (instance, snode))
1137
          bad = True
1138
        if snode in n_offline:
1139
          inst_nodes_offline.append(snode)
1140

    
1141
      if inst_nodes_offline:
1142
        # warn that the instance lives on offline nodes, and set bad=True
1143
        feedback_fn("  - ERROR: instance lives on offline node(s) %s" %
1144
                    ", ".join(inst_nodes_offline))
1145
        bad = True
1146

    
1147
    feedback_fn("* Verifying orphan volumes")
1148
    result = self._VerifyOrphanVolumes(node_vol_should, node_volume,
1149
                                       feedback_fn)
1150
    bad = bad or result
1151

    
1152
    feedback_fn("* Verifying remaining instances")
1153
    result = self._VerifyOrphanInstances(instancelist, node_instance,
1154
                                         feedback_fn)
1155
    bad = bad or result
1156

    
1157
    if constants.VERIFY_NPLUSONE_MEM not in self.skip_set:
1158
      feedback_fn("* Verifying N+1 Memory redundancy")
1159
      result = self._VerifyNPlusOneMemory(node_info, instance_cfg, feedback_fn)
1160
      bad = bad or result
1161

    
1162
    feedback_fn("* Other Notes")
1163
    if i_non_redundant:
1164
      feedback_fn("  - NOTICE: %d non-redundant instance(s) found."
1165
                  % len(i_non_redundant))
1166

    
1167
    if i_non_a_balanced:
1168
      feedback_fn("  - NOTICE: %d non-auto-balanced instance(s) found."
1169
                  % len(i_non_a_balanced))
1170

    
1171
    if n_offline:
1172
      feedback_fn("  - NOTICE: %d offline node(s) found." % len(n_offline))
1173

    
1174
    if n_drained:
1175
      feedback_fn("  - NOTICE: %d drained node(s) found." % len(n_drained))
1176

    
1177
    return not bad
1178

    
1179
  def HooksCallBack(self, phase, hooks_results, feedback_fn, lu_result):
1180
    """Analize the post-hooks' result
1181

1182
    This method analyses the hook result, handles it, and sends some
1183
    nicely-formatted feedback back to the user.
1184

1185
    @param phase: one of L{constants.HOOKS_PHASE_POST} or
1186
        L{constants.HOOKS_PHASE_PRE}; it denotes the hooks phase
1187
    @param hooks_results: the results of the multi-node hooks rpc call
1188
    @param feedback_fn: function used send feedback back to the caller
1189
    @param lu_result: previous Exec result
1190
    @return: the new Exec result, based on the previous result
1191
        and hook results
1192

1193
    """
1194
    # We only really run POST phase hooks, and are only interested in
1195
    # their results
1196
    if phase == constants.HOOKS_PHASE_POST:
1197
      # Used to change hooks' output to proper indentation
1198
      indent_re = re.compile('^', re.M)
1199
      feedback_fn("* Hooks Results")
1200
      if not hooks_results:
1201
        feedback_fn("  - ERROR: general communication failure")
1202
        lu_result = 1
1203
      else:
1204
        for node_name in hooks_results:
1205
          show_node_header = True
1206
          res = hooks_results[node_name]
1207
          if res.failed or res.data is False or not isinstance(res.data, list):
1208
            if res.offline:
1209
              # no need to warn or set fail return value
1210
              continue
1211
            feedback_fn("    Communication failure in hooks execution")
1212
            lu_result = 1
1213
            continue
1214
          for script, hkr, output in res.data:
1215
            if hkr == constants.HKR_FAIL:
1216
              # The node header is only shown once, if there are
1217
              # failing hooks on that node
1218
              if show_node_header:
1219
                feedback_fn("  Node %s:" % node_name)
1220
                show_node_header = False
1221
              feedback_fn("    ERROR: Script %s failed, output:" % script)
1222
              output = indent_re.sub('      ', output)
1223
              feedback_fn("%s" % output)
1224
              lu_result = 1
1225

    
1226
      return lu_result
1227

    
1228

    
1229
class LUVerifyDisks(NoHooksLU):
1230
  """Verifies the cluster disks status.
1231

1232
  """
1233
  _OP_REQP = []
1234
  REQ_BGL = False
1235

    
1236
  def ExpandNames(self):
1237
    self.needed_locks = {
1238
      locking.LEVEL_NODE: locking.ALL_SET,
1239
      locking.LEVEL_INSTANCE: locking.ALL_SET,
1240
    }
1241
    self.share_locks = dict(((i, 1) for i in locking.LEVELS))
1242

    
1243
  def CheckPrereq(self):
1244
    """Check prerequisites.
1245

1246
    This has no prerequisites.
1247

1248
    """
1249
    pass
1250

    
1251
  def Exec(self, feedback_fn):
1252
    """Verify integrity of cluster disks.
1253

1254
    """
1255
    result = res_nodes, res_nlvm, res_instances, res_missing = [], {}, [], {}
1256

    
1257
    vg_name = self.cfg.GetVGName()
1258
    nodes = utils.NiceSort(self.cfg.GetNodeList())
1259
    instances = [self.cfg.GetInstanceInfo(name)
1260
                 for name in self.cfg.GetInstanceList()]
1261

    
1262
    nv_dict = {}
1263
    for inst in instances:
1264
      inst_lvs = {}
1265
      if (not inst.admin_up or
1266
          inst.disk_template not in constants.DTS_NET_MIRROR):
1267
        continue
1268
      inst.MapLVsByNode(inst_lvs)
1269
      # transform { iname: {node: [vol,],},} to {(node, vol): iname}
1270
      for node, vol_list in inst_lvs.iteritems():
1271
        for vol in vol_list:
1272
          nv_dict[(node, vol)] = inst
1273

    
1274
    if not nv_dict:
1275
      return result
1276

    
1277
    node_lvs = self.rpc.call_volume_list(nodes, vg_name)
1278

    
1279
    to_act = set()
1280
    for node in nodes:
1281
      # node_volume
1282
      lvs = node_lvs[node]
1283
      if lvs.failed:
1284
        if not lvs.offline:
1285
          self.LogWarning("Connection to node %s failed: %s" %
1286
                          (node, lvs.data))
1287
        continue
1288
      lvs = lvs.data
1289
      if isinstance(lvs, basestring):
1290
        logging.warning("Error enumerating LVs on node %s: %s", node, lvs)
1291
        res_nlvm[node] = lvs
1292
        continue
1293
      elif not isinstance(lvs, dict):
1294
        logging.warning("Connection to node %s failed or invalid data"
1295
                        " returned", node)
1296
        res_nodes.append(node)
1297
        continue
1298

    
1299
      for lv_name, (_, lv_inactive, lv_online) in lvs.iteritems():
1300
        inst = nv_dict.pop((node, lv_name), None)
1301
        if (not lv_online and inst is not None
1302
            and inst.name not in res_instances):
1303
          res_instances.append(inst.name)
1304

    
1305
    # any leftover items in nv_dict are missing LVs, let's arrange the
1306
    # data better
1307
    for key, inst in nv_dict.iteritems():
1308
      if inst.name not in res_missing:
1309
        res_missing[inst.name] = []
1310
      res_missing[inst.name].append(key)
1311

    
1312
    return result
1313

    
1314

    
1315
class LURenameCluster(LogicalUnit):
1316
  """Rename the cluster.
1317

1318
  """
1319
  HPATH = "cluster-rename"
1320
  HTYPE = constants.HTYPE_CLUSTER
1321
  _OP_REQP = ["name"]
1322

    
1323
  def BuildHooksEnv(self):
1324
    """Build hooks env.
1325

1326
    """
1327
    env = {
1328
      "OP_TARGET": self.cfg.GetClusterName(),
1329
      "NEW_NAME": self.op.name,
1330
      }
1331
    mn = self.cfg.GetMasterNode()
1332
    return env, [mn], [mn]
1333

    
1334
  def CheckPrereq(self):
1335
    """Verify that the passed name is a valid one.
1336

1337
    """
1338
    hostname = utils.HostInfo(self.op.name)
1339

    
1340
    new_name = hostname.name
1341
    self.ip = new_ip = hostname.ip
1342
    old_name = self.cfg.GetClusterName()
1343
    old_ip = self.cfg.GetMasterIP()
1344
    if new_name == old_name and new_ip == old_ip:
1345
      raise errors.OpPrereqError("Neither the name nor the IP address of the"
1346
                                 " cluster has changed")
1347
    if new_ip != old_ip:
1348
      if utils.TcpPing(new_ip, constants.DEFAULT_NODED_PORT):
1349
        raise errors.OpPrereqError("The given cluster IP address (%s) is"
1350
                                   " reachable on the network. Aborting." %
1351
                                   new_ip)
1352

    
1353
    self.op.name = new_name
1354

    
1355
  def Exec(self, feedback_fn):
1356
    """Rename the cluster.
1357

1358
    """
1359
    clustername = self.op.name
1360
    ip = self.ip
1361

    
1362
    # shutdown the master IP
1363
    master = self.cfg.GetMasterNode()
1364
    result = self.rpc.call_node_stop_master(master, False)
1365
    if result.failed or not result.data:
1366
      raise errors.OpExecError("Could not disable the master role")
1367

    
1368
    try:
1369
      cluster = self.cfg.GetClusterInfo()
1370
      cluster.cluster_name = clustername
1371
      cluster.master_ip = ip
1372
      self.cfg.Update(cluster)
1373

    
1374
      # update the known hosts file
1375
      ssh.WriteKnownHostsFile(self.cfg, constants.SSH_KNOWN_HOSTS_FILE)
1376
      node_list = self.cfg.GetNodeList()
1377
      try:
1378
        node_list.remove(master)
1379
      except ValueError:
1380
        pass
1381
      result = self.rpc.call_upload_file(node_list,
1382
                                         constants.SSH_KNOWN_HOSTS_FILE)
1383
      for to_node, to_result in result.iteritems():
1384
        if to_result.failed or not to_result.data:
1385
          logging.error("Copy of file %s to node %s failed",
1386
                        constants.SSH_KNOWN_HOSTS_FILE, to_node)
1387

    
1388
    finally:
1389
      result = self.rpc.call_node_start_master(master, False)
1390
      if result.failed or not result.data:
1391
        self.LogWarning("Could not re-enable the master role on"
1392
                        " the master, please restart manually.")
1393

    
1394

    
1395
def _RecursiveCheckIfLVMBased(disk):
1396
  """Check if the given disk or its children are lvm-based.
1397

1398
  @type disk: L{objects.Disk}
1399
  @param disk: the disk to check
1400
  @rtype: booleean
1401
  @return: boolean indicating whether a LD_LV dev_type was found or not
1402

1403
  """
1404
  if disk.children:
1405
    for chdisk in disk.children:
1406
      if _RecursiveCheckIfLVMBased(chdisk):
1407
        return True
1408
  return disk.dev_type == constants.LD_LV
1409

    
1410

    
1411
class LUSetClusterParams(LogicalUnit):
1412
  """Change the parameters of the cluster.
1413

1414
  """
1415
  HPATH = "cluster-modify"
1416
  HTYPE = constants.HTYPE_CLUSTER
1417
  _OP_REQP = []
1418
  REQ_BGL = False
1419

    
1420
  def CheckParameters(self):
1421
    """Check parameters
1422

1423
    """
1424
    if not hasattr(self.op, "candidate_pool_size"):
1425
      self.op.candidate_pool_size = None
1426
    if self.op.candidate_pool_size is not None:
1427
      try:
1428
        self.op.candidate_pool_size = int(self.op.candidate_pool_size)
1429
      except ValueError, err:
1430
        raise errors.OpPrereqError("Invalid candidate_pool_size value: %s" %
1431
                                   str(err))
1432
      if self.op.candidate_pool_size < 1:
1433
        raise errors.OpPrereqError("At least one master candidate needed")
1434

    
1435
  def ExpandNames(self):
1436
    # FIXME: in the future maybe other cluster params won't require checking on
1437
    # all nodes to be modified.
1438
    self.needed_locks = {
1439
      locking.LEVEL_NODE: locking.ALL_SET,
1440
    }
1441
    self.share_locks[locking.LEVEL_NODE] = 1
1442

    
1443
  def BuildHooksEnv(self):
1444
    """Build hooks env.
1445

1446
    """
1447
    env = {
1448
      "OP_TARGET": self.cfg.GetClusterName(),
1449
      "NEW_VG_NAME": self.op.vg_name,
1450
      }
1451
    mn = self.cfg.GetMasterNode()
1452
    return env, [mn], [mn]
1453

    
1454
  def CheckPrereq(self):
1455
    """Check prerequisites.
1456

1457
    This checks whether the given params don't conflict and
1458
    if the given volume group is valid.
1459

1460
    """
1461
    if self.op.vg_name is not None and not self.op.vg_name:
1462
      instances = self.cfg.GetAllInstancesInfo().values()
1463
      for inst in instances:
1464
        for disk in inst.disks:
1465
          if _RecursiveCheckIfLVMBased(disk):
1466
            raise errors.OpPrereqError("Cannot disable lvm storage while"
1467
                                       " lvm-based instances exist")
1468

    
1469
    node_list = self.acquired_locks[locking.LEVEL_NODE]
1470

    
1471
    # if vg_name not None, checks given volume group on all nodes
1472
    if self.op.vg_name:
1473
      vglist = self.rpc.call_vg_list(node_list)
1474
      for node in node_list:
1475
        if vglist[node].failed:
1476
          # ignoring down node
1477
          self.LogWarning("Node %s unreachable/error, ignoring" % node)
1478
          continue
1479
        vgstatus = utils.CheckVolumeGroupSize(vglist[node].data,
1480
                                              self.op.vg_name,
1481
                                              constants.MIN_VG_SIZE)
1482
        if vgstatus:
1483
          raise errors.OpPrereqError("Error on node '%s': %s" %
1484
                                     (node, vgstatus))
1485

    
1486
    self.cluster = cluster = self.cfg.GetClusterInfo()
1487
    # validate beparams changes
1488
    if self.op.beparams:
1489
      utils.ForceDictType(self.op.beparams, constants.BES_PARAMETER_TYPES)
1490
      self.new_beparams = cluster.FillDict(
1491
        cluster.beparams[constants.BEGR_DEFAULT], self.op.beparams)
1492

    
1493
    # hypervisor list/parameters
1494
    self.new_hvparams = cluster.FillDict(cluster.hvparams, {})
1495
    if self.op.hvparams:
1496
      if not isinstance(self.op.hvparams, dict):
1497
        raise errors.OpPrereqError("Invalid 'hvparams' parameter on input")
1498
      for hv_name, hv_dict in self.op.hvparams.items():
1499
        if hv_name not in self.new_hvparams:
1500
          self.new_hvparams[hv_name] = hv_dict
1501
        else:
1502
          self.new_hvparams[hv_name].update(hv_dict)
1503

    
1504
    if self.op.enabled_hypervisors is not None:
1505
      self.hv_list = self.op.enabled_hypervisors
1506
    else:
1507
      self.hv_list = cluster.enabled_hypervisors
1508

    
1509
    if self.op.hvparams or self.op.enabled_hypervisors is not None:
1510
      # either the enabled list has changed, or the parameters have, validate
1511
      for hv_name, hv_params in self.new_hvparams.items():
1512
        if ((self.op.hvparams and hv_name in self.op.hvparams) or
1513
            (self.op.enabled_hypervisors and
1514
             hv_name in self.op.enabled_hypervisors)):
1515
          # either this is a new hypervisor, or its parameters have changed
1516
          hv_class = hypervisor.GetHypervisor(hv_name)
1517
          utils.ForceDictType(hv_params, constants.HVS_PARAMETER_TYPES)
1518
          hv_class.CheckParameterSyntax(hv_params)
1519
          _CheckHVParams(self, node_list, hv_name, hv_params)
1520

    
1521
  def Exec(self, feedback_fn):
1522
    """Change the parameters of the cluster.
1523

1524
    """
1525
    if self.op.vg_name is not None:
1526
      new_volume = self.op.vg_name
1527
      if not new_volume:
1528
        new_volume = None
1529
      if new_volume != self.cfg.GetVGName():
1530
        self.cfg.SetVGName(new_volume)
1531
      else:
1532
        feedback_fn("Cluster LVM configuration already in desired"
1533
                    " state, not changing")
1534
    if self.op.hvparams:
1535
      self.cluster.hvparams = self.new_hvparams
1536
    if self.op.enabled_hypervisors is not None:
1537
      self.cluster.enabled_hypervisors = self.op.enabled_hypervisors
1538
    if self.op.beparams:
1539
      self.cluster.beparams[constants.BEGR_DEFAULT] = self.new_beparams
1540
    if self.op.candidate_pool_size is not None:
1541
      self.cluster.candidate_pool_size = self.op.candidate_pool_size
1542

    
1543
    self.cfg.Update(self.cluster)
1544

    
1545
    # we want to update nodes after the cluster so that if any errors
1546
    # happen, we have recorded and saved the cluster info
1547
    if self.op.candidate_pool_size is not None:
1548
      _AdjustCandidatePool(self)
1549

    
1550

    
1551
class LURedistributeConfig(NoHooksLU):
1552
  """Force the redistribution of cluster configuration.
1553

1554
  This is a very simple LU.
1555

1556
  """
1557
  _OP_REQP = []
1558
  REQ_BGL = False
1559

    
1560
  def ExpandNames(self):
1561
    self.needed_locks = {
1562
      locking.LEVEL_NODE: locking.ALL_SET,
1563
    }
1564
    self.share_locks[locking.LEVEL_NODE] = 1
1565

    
1566
  def CheckPrereq(self):
1567
    """Check prerequisites.
1568

1569
    """
1570

    
1571
  def Exec(self, feedback_fn):
1572
    """Redistribute the configuration.
1573

1574
    """
1575
    self.cfg.Update(self.cfg.GetClusterInfo())
1576

    
1577

    
1578
def _WaitForSync(lu, instance, oneshot=False, unlock=False):
1579
  """Sleep and poll for an instance's disk to sync.
1580

1581
  """
1582
  if not instance.disks:
1583
    return True
1584

    
1585
  if not oneshot:
1586
    lu.proc.LogInfo("Waiting for instance %s to sync disks." % instance.name)
1587

    
1588
  node = instance.primary_node
1589

    
1590
  for dev in instance.disks:
1591
    lu.cfg.SetDiskID(dev, node)
1592

    
1593
  retries = 0
1594
  while True:
1595
    max_time = 0
1596
    done = True
1597
    cumul_degraded = False
1598
    rstats = lu.rpc.call_blockdev_getmirrorstatus(node, instance.disks)
1599
    if rstats.failed or not rstats.data:
1600
      lu.LogWarning("Can't get any data from node %s", node)
1601
      retries += 1
1602
      if retries >= 10:
1603
        raise errors.RemoteError("Can't contact node %s for mirror data,"
1604
                                 " aborting." % node)
1605
      time.sleep(6)
1606
      continue
1607
    rstats = rstats.data
1608
    retries = 0
1609
    for i, mstat in enumerate(rstats):
1610
      if mstat is None:
1611
        lu.LogWarning("Can't compute data for node %s/%s",
1612
                           node, instance.disks[i].iv_name)
1613
        continue
1614
      # we ignore the ldisk parameter
1615
      perc_done, est_time, is_degraded, _ = mstat
1616
      cumul_degraded = cumul_degraded or (is_degraded and perc_done is None)
1617
      if perc_done is not None:
1618
        done = False
1619
        if est_time is not None:
1620
          rem_time = "%d estimated seconds remaining" % est_time
1621
          max_time = est_time
1622
        else:
1623
          rem_time = "no time estimate"
1624
        lu.proc.LogInfo("- device %s: %5.2f%% done, %s" %
1625
                        (instance.disks[i].iv_name, perc_done, rem_time))
1626
    if done or oneshot:
1627
      break
1628

    
1629
    time.sleep(min(60, max_time))
1630

    
1631
  if done:
1632
    lu.proc.LogInfo("Instance %s's disks are in sync." % instance.name)
1633
  return not cumul_degraded
1634

    
1635

    
1636
def _CheckDiskConsistency(lu, dev, node, on_primary, ldisk=False):
1637
  """Check that mirrors are not degraded.
1638

1639
  The ldisk parameter, if True, will change the test from the
1640
  is_degraded attribute (which represents overall non-ok status for
1641
  the device(s)) to the ldisk (representing the local storage status).
1642

1643
  """
1644
  lu.cfg.SetDiskID(dev, node)
1645
  if ldisk:
1646
    idx = 6
1647
  else:
1648
    idx = 5
1649

    
1650
  result = True
1651
  if on_primary or dev.AssembleOnSecondary():
1652
    rstats = lu.rpc.call_blockdev_find(node, dev)
1653
    msg = rstats.RemoteFailMsg()
1654
    if msg:
1655
      lu.LogWarning("Can't find disk on node %s: %s", node, msg)
1656
      result = False
1657
    elif not rstats.payload:
1658
      lu.LogWarning("Can't find disk on node %s", node)
1659
      result = False
1660
    else:
1661
      result = result and (not rstats.payload[idx])
1662
  if dev.children:
1663
    for child in dev.children:
1664
      result = result and _CheckDiskConsistency(lu, child, node, on_primary)
1665

    
1666
  return result
1667

    
1668

    
1669
class LUDiagnoseOS(NoHooksLU):
1670
  """Logical unit for OS diagnose/query.
1671

1672
  """
1673
  _OP_REQP = ["output_fields", "names"]
1674
  REQ_BGL = False
1675
  _FIELDS_STATIC = utils.FieldSet()
1676
  _FIELDS_DYNAMIC = utils.FieldSet("name", "valid", "node_status")
1677

    
1678
  def ExpandNames(self):
1679
    if self.op.names:
1680
      raise errors.OpPrereqError("Selective OS query not supported")
1681

    
1682
    _CheckOutputFields(static=self._FIELDS_STATIC,
1683
                       dynamic=self._FIELDS_DYNAMIC,
1684
                       selected=self.op.output_fields)
1685

    
1686
    # Lock all nodes, in shared mode
1687
    # Temporary removal of locks, should be reverted later
1688
    # TODO: reintroduce locks when they are lighter-weight
1689
    self.needed_locks = {}
1690
    #self.share_locks[locking.LEVEL_NODE] = 1
1691
    #self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET
1692

    
1693
  def CheckPrereq(self):
1694
    """Check prerequisites.
1695

1696
    """
1697

    
1698
  @staticmethod
1699
  def _DiagnoseByOS(node_list, rlist):
1700
    """Remaps a per-node return list into an a per-os per-node dictionary
1701

1702
    @param node_list: a list with the names of all nodes
1703
    @param rlist: a map with node names as keys and OS objects as values
1704

1705
    @rtype: dict
1706
    @return: a dictionary with osnames as keys and as value another map, with
1707
        nodes as keys and list of OS objects as values, eg::
1708

1709
          {"debian-etch": {"node1": [<object>,...],
1710
                           "node2": [<object>,]}
1711
          }
1712

1713
    """
1714
    all_os = {}
1715
    # we build here the list of nodes that didn't fail the RPC (at RPC
1716
    # level), so that nodes with a non-responding node daemon don't
1717
    # make all OSes invalid
1718
    good_nodes = [node_name for node_name in rlist
1719
                  if not rlist[node_name].failed]
1720
    for node_name, nr in rlist.iteritems():
1721
      if nr.failed or not nr.data:
1722
        continue
1723
      for os_obj in nr.data:
1724
        if os_obj.name not in all_os:
1725
          # build a list of nodes for this os containing empty lists
1726
          # for each node in node_list
1727
          all_os[os_obj.name] = {}
1728
          for nname in good_nodes:
1729
            all_os[os_obj.name][nname] = []
1730
        all_os[os_obj.name][node_name].append(os_obj)
1731
    return all_os
1732

    
1733
  def Exec(self, feedback_fn):
1734
    """Compute the list of OSes.
1735

1736
    """
1737
    valid_nodes = [node for node in self.cfg.GetOnlineNodeList()]
1738
    node_data = self.rpc.call_os_diagnose(valid_nodes)
1739
    if node_data == False:
1740
      raise errors.OpExecError("Can't gather the list of OSes")
1741
    pol = self._DiagnoseByOS(valid_nodes, node_data)
1742
    output = []
1743
    for os_name, os_data in pol.iteritems():
1744
      row = []
1745
      for field in self.op.output_fields:
1746
        if field == "name":
1747
          val = os_name
1748
        elif field == "valid":
1749
          val = utils.all([osl and osl[0] for osl in os_data.values()])
1750
        elif field == "node_status":
1751
          val = {}
1752
          for node_name, nos_list in os_data.iteritems():
1753
            val[node_name] = [(v.status, v.path) for v in nos_list]
1754
        else:
1755
          raise errors.ParameterError(field)
1756
        row.append(val)
1757
      output.append(row)
1758

    
1759
    return output
1760

    
1761

    
1762
class LURemoveNode(LogicalUnit):
1763
  """Logical unit for removing a node.
1764

1765
  """
1766
  HPATH = "node-remove"
1767
  HTYPE = constants.HTYPE_NODE
1768
  _OP_REQP = ["node_name"]
1769

    
1770
  def BuildHooksEnv(self):
1771
    """Build hooks env.
1772

1773
    This doesn't run on the target node in the pre phase as a failed
1774
    node would then be impossible to remove.
1775

1776
    """
1777
    env = {
1778
      "OP_TARGET": self.op.node_name,
1779
      "NODE_NAME": self.op.node_name,
1780
      }
1781
    all_nodes = self.cfg.GetNodeList()
1782
    all_nodes.remove(self.op.node_name)
1783
    return env, all_nodes, all_nodes
1784

    
1785
  def CheckPrereq(self):
1786
    """Check prerequisites.
1787

1788
    This checks:
1789
     - the node exists in the configuration
1790
     - it does not have primary or secondary instances
1791
     - it's not the master
1792

1793
    Any errors are signalled by raising errors.OpPrereqError.
1794

1795
    """
1796
    node = self.cfg.GetNodeInfo(self.cfg.ExpandNodeName(self.op.node_name))
1797
    if node is None:
1798
      raise errors.OpPrereqError, ("Node '%s' is unknown." % self.op.node_name)
1799

    
1800
    instance_list = self.cfg.GetInstanceList()
1801

    
1802
    masternode = self.cfg.GetMasterNode()
1803
    if node.name == masternode:
1804
      raise errors.OpPrereqError("Node is the master node,"
1805
                                 " you need to failover first.")
1806

    
1807
    for instance_name in instance_list:
1808
      instance = self.cfg.GetInstanceInfo(instance_name)
1809
      if node.name in instance.all_nodes:
1810
        raise errors.OpPrereqError("Instance %s is still running on the node,"
1811
                                   " please remove first." % instance_name)
1812
    self.op.node_name = node.name
1813
    self.node = node
1814

    
1815
  def Exec(self, feedback_fn):
1816
    """Removes the node from the cluster.
1817

1818
    """
1819
    node = self.node
1820
    logging.info("Stopping the node daemon and removing configs from node %s",
1821
                 node.name)
1822

    
1823
    self.context.RemoveNode(node.name)
1824

    
1825
    self.rpc.call_node_leave_cluster(node.name)
1826

    
1827
    # Promote nodes to master candidate as needed
1828
    _AdjustCandidatePool(self)
1829

    
1830

    
1831
class LUQueryNodes(NoHooksLU):
1832
  """Logical unit for querying nodes.
1833

1834
  """
1835
  _OP_REQP = ["output_fields", "names", "use_locking"]
1836
  REQ_BGL = False
1837
  _FIELDS_DYNAMIC = utils.FieldSet(
1838
    "dtotal", "dfree",
1839
    "mtotal", "mnode", "mfree",
1840
    "bootid",
1841
    "ctotal", "cnodes", "csockets",
1842
    )
1843

    
1844
  _FIELDS_STATIC = utils.FieldSet(
1845
    "name", "pinst_cnt", "sinst_cnt",
1846
    "pinst_list", "sinst_list",
1847
    "pip", "sip", "tags",
1848
    "serial_no",
1849
    "master_candidate",
1850
    "master",
1851
    "offline",
1852
    "drained",
1853
    )
1854

    
1855
  def ExpandNames(self):
1856
    _CheckOutputFields(static=self._FIELDS_STATIC,
1857
                       dynamic=self._FIELDS_DYNAMIC,
1858
                       selected=self.op.output_fields)
1859

    
1860
    self.needed_locks = {}
1861
    self.share_locks[locking.LEVEL_NODE] = 1
1862

    
1863
    if self.op.names:
1864
      self.wanted = _GetWantedNodes(self, self.op.names)
1865
    else:
1866
      self.wanted = locking.ALL_SET
1867

    
1868
    self.do_node_query = self._FIELDS_STATIC.NonMatching(self.op.output_fields)
1869
    self.do_locking = self.do_node_query and self.op.use_locking
1870
    if self.do_locking:
1871
      # if we don't request only static fields, we need to lock the nodes
1872
      self.needed_locks[locking.LEVEL_NODE] = self.wanted
1873

    
1874

    
1875
  def CheckPrereq(self):
1876
    """Check prerequisites.
1877

1878
    """
1879
    # The validation of the node list is done in the _GetWantedNodes,
1880
    # if non empty, and if empty, there's no validation to do
1881
    pass
1882

    
1883
  def Exec(self, feedback_fn):
1884
    """Computes the list of nodes and their attributes.
1885

1886
    """
1887
    all_info = self.cfg.GetAllNodesInfo()
1888
    if self.do_locking:
1889
      nodenames = self.acquired_locks[locking.LEVEL_NODE]
1890
    elif self.wanted != locking.ALL_SET:
1891
      nodenames = self.wanted
1892
      missing = set(nodenames).difference(all_info.keys())
1893
      if missing:
1894
        raise errors.OpExecError(
1895
          "Some nodes were removed before retrieving their data: %s" % missing)
1896
    else:
1897
      nodenames = all_info.keys()
1898

    
1899
    nodenames = utils.NiceSort(nodenames)
1900
    nodelist = [all_info[name] for name in nodenames]
1901

    
1902
    # begin data gathering
1903

    
1904
    if self.do_node_query:
1905
      live_data = {}
1906
      node_data = self.rpc.call_node_info(nodenames, self.cfg.GetVGName(),
1907
                                          self.cfg.GetHypervisorType())
1908
      for name in nodenames:
1909
        nodeinfo = node_data[name]
1910
        if not nodeinfo.failed and nodeinfo.data:
1911
          nodeinfo = nodeinfo.data
1912
          fn = utils.TryConvert
1913
          live_data[name] = {
1914
            "mtotal": fn(int, nodeinfo.get('memory_total', None)),
1915
            "mnode": fn(int, nodeinfo.get('memory_dom0', None)),
1916
            "mfree": fn(int, nodeinfo.get('memory_free', None)),
1917
            "dtotal": fn(int, nodeinfo.get('vg_size', None)),
1918
            "dfree": fn(int, nodeinfo.get('vg_free', None)),
1919
            "ctotal": fn(int, nodeinfo.get('cpu_total', None)),
1920
            "bootid": nodeinfo.get('bootid', None),
1921
            "cnodes": fn(int, nodeinfo.get('cpu_nodes', None)),
1922
            "csockets": fn(int, nodeinfo.get('cpu_sockets', None)),
1923
            }
1924
        else:
1925
          live_data[name] = {}
1926
    else:
1927
      live_data = dict.fromkeys(nodenames, {})
1928

    
1929
    node_to_primary = dict([(name, set()) for name in nodenames])
1930
    node_to_secondary = dict([(name, set()) for name in nodenames])
1931

    
1932
    inst_fields = frozenset(("pinst_cnt", "pinst_list",
1933
                             "sinst_cnt", "sinst_list"))
1934
    if inst_fields & frozenset(self.op.output_fields):
1935
      instancelist = self.cfg.GetInstanceList()
1936

    
1937
      for instance_name in instancelist:
1938
        inst = self.cfg.GetInstanceInfo(instance_name)
1939
        if inst.primary_node in node_to_primary:
1940
          node_to_primary[inst.primary_node].add(inst.name)
1941
        for secnode in inst.secondary_nodes:
1942
          if secnode in node_to_secondary:
1943
            node_to_secondary[secnode].add(inst.name)
1944

    
1945
    master_node = self.cfg.GetMasterNode()
1946

    
1947
    # end data gathering
1948

    
1949
    output = []
1950
    for node in nodelist:
1951
      node_output = []
1952
      for field in self.op.output_fields:
1953
        if field == "name":
1954
          val = node.name
1955
        elif field == "pinst_list":
1956
          val = list(node_to_primary[node.name])
1957
        elif field == "sinst_list":
1958
          val = list(node_to_secondary[node.name])
1959
        elif field == "pinst_cnt":
1960
          val = len(node_to_primary[node.name])
1961
        elif field == "sinst_cnt":
1962
          val = len(node_to_secondary[node.name])
1963
        elif field == "pip":
1964
          val = node.primary_ip
1965
        elif field == "sip":
1966
          val = node.secondary_ip
1967
        elif field == "tags":
1968
          val = list(node.GetTags())
1969
        elif field == "serial_no":
1970
          val = node.serial_no
1971
        elif field == "master_candidate":
1972
          val = node.master_candidate
1973
        elif field == "master":
1974
          val = node.name == master_node
1975
        elif field == "offline":
1976
          val = node.offline
1977
        elif field == "drained":
1978
          val = node.drained
1979
        elif self._FIELDS_DYNAMIC.Matches(field):
1980
          val = live_data[node.name].get(field, None)
1981
        else:
1982
          raise errors.ParameterError(field)
1983
        node_output.append(val)
1984
      output.append(node_output)
1985

    
1986
    return output
1987

    
1988

    
1989
class LUQueryNodeVolumes(NoHooksLU):
1990
  """Logical unit for getting volumes on node(s).
1991

1992
  """
1993
  _OP_REQP = ["nodes", "output_fields"]
1994
  REQ_BGL = False
1995
  _FIELDS_DYNAMIC = utils.FieldSet("phys", "vg", "name", "size", "instance")
1996
  _FIELDS_STATIC = utils.FieldSet("node")
1997

    
1998
  def ExpandNames(self):
1999
    _CheckOutputFields(static=self._FIELDS_STATIC,
2000
                       dynamic=self._FIELDS_DYNAMIC,
2001
                       selected=self.op.output_fields)
2002

    
2003
    self.needed_locks = {}
2004
    self.share_locks[locking.LEVEL_NODE] = 1
2005
    if not self.op.nodes:
2006
      self.needed_locks[locking.LEVEL_NODE] = locking.ALL_SET
2007
    else:
2008
      self.needed_locks[locking.LEVEL_NODE] = \
2009
        _GetWantedNodes(self, self.op.nodes)
2010

    
2011
  def CheckPrereq(self):
2012
    """Check prerequisites.
2013

2014
    This checks that the fields required are valid output fields.
2015

2016
    """
2017
    self.nodes = self.acquired_locks[locking.LEVEL_NODE]
2018

    
2019
  def Exec(self, feedback_fn):
2020
    """Computes the list of nodes and their attributes.
2021

2022
    """
2023
    nodenames = self.nodes
2024
    volumes = self.rpc.call_node_volumes(nodenames)
2025

    
2026
    ilist = [self.cfg.GetInstanceInfo(iname) for iname
2027
             in self.cfg.GetInstanceList()]
2028

    
2029
    lv_by_node = dict([(inst, inst.MapLVsByNode()) for inst in ilist])
2030

    
2031
    output = []
2032
    for node in nodenames:
2033
      if node not in volumes or volumes[node].failed or not volumes[node].data:
2034
        continue
2035

    
2036
      node_vols = volumes[node].data[:]
2037
      node_vols.sort(key=lambda vol: vol['dev'])
2038

    
2039
      for vol in node_vols:
2040
        node_output = []
2041
        for field in self.op.output_fields:
2042
          if field == "node":
2043
            val = node
2044
          elif field == "phys":
2045
            val = vol['dev']
2046
          elif field == "vg":
2047
            val = vol['vg']
2048
          elif field == "name":
2049
            val = vol['name']
2050
          elif field == "size":
2051
            val = int(float(vol['size']))
2052
          elif field == "instance":
2053
            for inst in ilist:
2054
              if node not in lv_by_node[inst]:
2055
                continue
2056
              if vol['name'] in lv_by_node[inst][node]:
2057
                val = inst.name
2058
                break
2059
            else:
2060
              val = '-'
2061
          else:
2062
            raise errors.ParameterError(field)
2063
          node_output.append(str(val))
2064

    
2065
        output.append(node_output)
2066

    
2067
    return output
2068

    
2069

    
2070
class LUAddNode(LogicalUnit):
2071
  """Logical unit for adding node to the cluster.
2072

2073
  """
2074
  HPATH = "node-add"
2075
  HTYPE = constants.HTYPE_NODE
2076
  _OP_REQP = ["node_name"]
2077

    
2078
  def BuildHooksEnv(self):
2079
    """Build hooks env.
2080

2081
    This will run on all nodes before, and on all nodes + the new node after.
2082

2083
    """
2084
    env = {
2085
      "OP_TARGET": self.op.node_name,
2086
      "NODE_NAME": self.op.node_name,
2087
      "NODE_PIP": self.op.primary_ip,
2088
      "NODE_SIP": self.op.secondary_ip,
2089
      }
2090
    nodes_0 = self.cfg.GetNodeList()
2091
    nodes_1 = nodes_0 + [self.op.node_name, ]
2092
    return env, nodes_0, nodes_1
2093

    
2094
  def CheckPrereq(self):
2095
    """Check prerequisites.
2096

2097
    This checks:
2098
     - the new node is not already in the config
2099
     - it is resolvable
2100
     - its parameters (single/dual homed) matches the cluster
2101

2102
    Any errors are signalled by raising errors.OpPrereqError.
2103

2104
    """
2105
    node_name = self.op.node_name
2106
    cfg = self.cfg
2107

    
2108
    dns_data = utils.HostInfo(node_name)
2109

    
2110
    node = dns_data.name
2111
    primary_ip = self.op.primary_ip = dns_data.ip
2112
    secondary_ip = getattr(self.op, "secondary_ip", None)
2113
    if secondary_ip is None:
2114
      secondary_ip = primary_ip
2115
    if not utils.IsValidIP(secondary_ip):
2116
      raise errors.OpPrereqError("Invalid secondary IP given")
2117
    self.op.secondary_ip = secondary_ip
2118

    
2119
    node_list = cfg.GetNodeList()
2120
    if not self.op.readd and node in node_list:
2121
      raise errors.OpPrereqError("Node %s is already in the configuration" %
2122
                                 node)
2123
    elif self.op.readd and node not in node_list:
2124
      raise errors.OpPrereqError("Node %s is not in the configuration" % node)
2125

    
2126
    for existing_node_name in node_list:
2127
      existing_node = cfg.GetNodeInfo(existing_node_name)
2128

    
2129
      if self.op.readd and node == existing_node_name:
2130
        if (existing_node.primary_ip != primary_ip or
2131
            existing_node.secondary_ip != secondary_ip):
2132
          raise errors.OpPrereqError("Readded node doesn't have the same IP"
2133
                                     " address configuration as before")
2134
        continue
2135

    
2136
      if (existing_node.primary_ip == primary_ip or
2137
          existing_node.secondary_ip == primary_ip or
2138
          existing_node.primary_ip == secondary_ip or
2139
          existing_node.secondary_ip == secondary_ip):
2140
        raise errors.OpPrereqError("New node ip address(es) conflict with"
2141
                                   " existing node %s" % existing_node.name)
2142

    
2143
    # check that the type of the node (single versus dual homed) is the
2144
    # same as for the master
2145
    myself = cfg.GetNodeInfo(self.cfg.GetMasterNode())
2146
    master_singlehomed = myself.secondary_ip == myself.primary_ip
2147
    newbie_singlehomed = secondary_ip == primary_ip
2148
    if master_singlehomed != newbie_singlehomed:
2149
      if master_singlehomed:
2150
        raise errors.OpPrereqError("The master has no private ip but the"
2151
                                   " new node has one")
2152
      else:
2153
        raise errors.OpPrereqError("The master has a private ip but the"
2154
                                   " new node doesn't have one")
2155

    
2156
    # checks reachablity
2157
    if not utils.TcpPing(primary_ip, constants.DEFAULT_NODED_PORT):
2158
      raise errors.OpPrereqError("Node not reachable by ping")
2159

    
2160
    if not newbie_singlehomed:
2161
      # check reachability from my secondary ip to newbie's secondary ip
2162
      if not utils.TcpPing(secondary_ip, constants.DEFAULT_NODED_PORT,
2163
                           source=myself.secondary_ip):
2164
        raise errors.OpPrereqError("Node secondary ip not reachable by TCP"
2165
                                   " based ping to noded port")
2166

    
2167
    cp_size = self.cfg.GetClusterInfo().candidate_pool_size
2168
    mc_now, _ = self.cfg.GetMasterCandidateStats()
2169
    master_candidate = mc_now < cp_size
2170

    
2171
    self.new_node = objects.Node(name=node,
2172
                                 primary_ip=primary_ip,
2173
                                 secondary_ip=secondary_ip,
2174
                                 master_candidate=master_candidate,
2175
                                 offline=False, drained=False)
2176

    
2177
  def Exec(self, feedback_fn):
2178
    """Adds the new node to the cluster.
2179

2180
    """
2181
    new_node = self.new_node
2182
    node = new_node.name
2183

    
2184
    # check connectivity
2185
    result = self.rpc.call_version([node])[node]
2186
    result.Raise()
2187
    if result.data:
2188
      if constants.PROTOCOL_VERSION == result.data:
2189
        logging.info("Communication to node %s fine, sw version %s match",
2190
                     node, result.data)
2191
      else:
2192
        raise errors.OpExecError("Version mismatch master version %s,"
2193
                                 " node version %s" %
2194
                                 (constants.PROTOCOL_VERSION, result.data))
2195
    else:
2196
      raise errors.OpExecError("Cannot get version from the new node")
2197

    
2198
    # setup ssh on node
2199
    logging.info("Copy ssh key to node %s", node)
2200
    priv_key, pub_key, _ = ssh.GetUserFiles(constants.GANETI_RUNAS)
2201
    keyarray = []
2202
    keyfiles = [constants.SSH_HOST_DSA_PRIV, constants.SSH_HOST_DSA_PUB,
2203
                constants.SSH_HOST_RSA_PRIV, constants.SSH_HOST_RSA_PUB,
2204
                priv_key, pub_key]
2205

    
2206
    for i in keyfiles:
2207
      f = open(i, 'r')
2208
      try:
2209
        keyarray.append(f.read())
2210
      finally:
2211
        f.close()
2212

    
2213
    result = self.rpc.call_node_add(node, keyarray[0], keyarray[1],
2214
                                    keyarray[2],
2215
                                    keyarray[3], keyarray[4], keyarray[5])
2216

    
2217
    msg = result.RemoteFailMsg()
2218
    if msg:
2219
      raise errors.OpExecError("Cannot transfer ssh keys to the"
2220
                               " new node: %s" % msg)
2221

    
2222
    # Add node to our /etc/hosts, and add key to known_hosts
2223
    utils.AddHostToEtcHosts(new_node.name)
2224

    
2225
    if new_node.secondary_ip != new_node.primary_ip:
2226
      result = self.rpc.call_node_has_ip_address(new_node.name,
2227
                                                 new_node.secondary_ip)
2228
      if result.failed or not result.data:
2229
        raise errors.OpExecError("Node claims it doesn't have the secondary ip"
2230
                                 " you gave (%s). Please fix and re-run this"
2231
                                 " command." % new_node.secondary_ip)
2232

    
2233
    node_verify_list = [self.cfg.GetMasterNode()]
2234
    node_verify_param = {
2235
      'nodelist': [node],
2236
      # TODO: do a node-net-test as well?
2237
    }
2238

    
2239
    result = self.rpc.call_node_verify(node_verify_list, node_verify_param,
2240
                                       self.cfg.GetClusterName())
2241
    for verifier in node_verify_list:
2242
      if result[verifier].failed or not result[verifier].data:
2243
        raise errors.OpExecError("Cannot communicate with %s's node daemon"
2244
                                 " for remote verification" % verifier)
2245
      if result[verifier].data['nodelist']:
2246
        for failed in result[verifier].data['nodelist']:
2247
          feedback_fn("ssh/hostname verification failed %s -> %s" %
2248
                      (verifier, result[verifier].data['nodelist'][failed]))
2249
        raise errors.OpExecError("ssh/hostname verification failed.")
2250

    
2251
    # Distribute updated /etc/hosts and known_hosts to all nodes,
2252
    # including the node just added
2253
    myself = self.cfg.GetNodeInfo(self.cfg.GetMasterNode())
2254
    dist_nodes = self.cfg.GetNodeList()
2255
    if not self.op.readd:
2256
      dist_nodes.append(node)
2257
    if myself.name in dist_nodes:
2258
      dist_nodes.remove(myself.name)
2259

    
2260
    logging.debug("Copying hosts and known_hosts to all nodes")
2261
    for fname in (constants.ETC_HOSTS, constants.SSH_KNOWN_HOSTS_FILE):
2262
      result = self.rpc.call_upload_file(dist_nodes, fname)
2263
      for to_node, to_result in result.iteritems():
2264
        if to_result.failed or not to_result.data:
2265
          logging.error("Copy of file %s to node %s failed", fname, to_node)
2266

    
2267
    to_copy = []
2268
    enabled_hypervisors = self.cfg.GetClusterInfo().enabled_hypervisors
2269
    if constants.HTS_COPY_VNC_PASSWORD.intersection(enabled_hypervisors):
2270
      to_copy.append(constants.VNC_PASSWORD_FILE)
2271

    
2272
    for fname in to_copy:
2273
      result = self.rpc.call_upload_file([node], fname)
2274
      if result[node].failed or not result[node]:
2275
        logging.error("Could not copy file %s to node %s", fname, node)
2276

    
2277
    if self.op.readd:
2278
      self.context.ReaddNode(new_node)
2279
    else:
2280
      self.context.AddNode(new_node)
2281

    
2282

    
2283
class LUSetNodeParams(LogicalUnit):
2284
  """Modifies the parameters of a node.
2285

2286
  """
2287
  HPATH = "node-modify"
2288
  HTYPE = constants.HTYPE_NODE
2289
  _OP_REQP = ["node_name"]
2290
  REQ_BGL = False
2291

    
2292
  def CheckArguments(self):
2293
    node_name = self.cfg.ExpandNodeName(self.op.node_name)
2294
    if node_name is None:
2295
      raise errors.OpPrereqError("Invalid node name '%s'" % self.op.node_name)
2296
    self.op.node_name = node_name
2297
    _CheckBooleanOpField(self.op, 'master_candidate')
2298
    _CheckBooleanOpField(self.op, 'offline')
2299
    _CheckBooleanOpField(self.op, 'drained')
2300
    all_mods = [self.op.offline, self.op.master_candidate, self.op.drained]
2301
    if all_mods.count(None) == 3:
2302
      raise errors.OpPrereqError("Please pass at least one modification")
2303
    if all_mods.count(True) > 1:
2304
      raise errors.OpPrereqError("Can't set the node into more than one"
2305
                                 " state at the same time")
2306

    
2307
  def ExpandNames(self):
2308
    self.needed_locks = {locking.LEVEL_NODE: self.op.node_name}
2309

    
2310
  def BuildHooksEnv(self):
2311
    """Build hooks env.
2312

2313
    This runs on the master node.
2314

2315
    """
2316
    env = {
2317
      "OP_TARGET": self.op.node_name,
2318
      "MASTER_CANDIDATE": str(self.op.master_candidate),
2319
      "OFFLINE": str(self.op.offline),
2320
      "DRAINED": str(self.op.drained),
2321
      }
2322
    nl = [self.cfg.GetMasterNode(),
2323
          self.op.node_name]
2324
    return env, nl, nl
2325

    
2326
  def CheckPrereq(self):
2327
    """Check prerequisites.
2328

2329
    This only checks the instance list against the existing names.
2330

2331
    """
2332
    node = self.node = self.cfg.GetNodeInfo(self.op.node_name)
2333

    
2334
    if ((self.op.master_candidate == False or self.op.offline == True or
2335
         self.op.drained == True) and node.master_candidate):
2336
      # we will demote the node from master_candidate
2337
      if self.op.node_name == self.cfg.GetMasterNode():
2338
        raise errors.OpPrereqError("The master node has to be a"
2339
                                   " master candidate, online and not drained")
2340
      cp_size = self.cfg.GetClusterInfo().candidate_pool_size
2341
      num_candidates, _ = self.cfg.GetMasterCandidateStats()
2342
      if num_candidates <= cp_size:
2343
        msg = ("Not enough master candidates (desired"
2344
               " %d, new value will be %d)" % (cp_size, num_candidates-1))
2345
        if self.op.force:
2346
          self.LogWarning(msg)
2347
        else:
2348
          raise errors.OpPrereqError(msg)
2349

    
2350
    if (self.op.master_candidate == True and
2351
        ((node.offline and not self.op.offline == False) or
2352
         (node.drained and not self.op.drained == False))):
2353
      raise errors.OpPrereqError("Node '%s' is offline or drained, can't set"
2354
                                 " to master_candidate" % node.name)
2355

    
2356
    return
2357

    
2358
  def Exec(self, feedback_fn):
2359
    """Modifies a node.
2360

2361
    """
2362
    node = self.node
2363

    
2364
    result = []
2365
    changed_mc = False
2366

    
2367
    if self.op.offline is not None:
2368
      node.offline = self.op.offline
2369
      result.append(("offline", str(self.op.offline)))
2370
      if self.op.offline == True:
2371
        if node.master_candidate:
2372
          node.master_candidate = False
2373
          changed_mc = True
2374
          result.append(("master_candidate", "auto-demotion due to offline"))
2375
        if node.drained:
2376
          node.drained = False
2377
          result.append(("drained", "clear drained status due to offline"))
2378

    
2379
    if self.op.master_candidate is not None:
2380
      node.master_candidate = self.op.master_candidate
2381
      changed_mc = True
2382
      result.append(("master_candidate", str(self.op.master_candidate)))
2383
      if self.op.master_candidate == False:
2384
        rrc = self.rpc.call_node_demote_from_mc(node.name)
2385
        msg = rrc.RemoteFailMsg()
2386
        if msg:
2387
          self.LogWarning("Node failed to demote itself: %s" % msg)
2388

    
2389
    if self.op.drained is not None:
2390
      node.drained = self.op.drained
2391
      result.append(("drained", str(self.op.drained)))
2392
      if self.op.drained == True:
2393
        if node.master_candidate:
2394
          node.master_candidate = False
2395
          changed_mc = True
2396
          result.append(("master_candidate", "auto-demotion due to drain"))
2397
        if node.offline:
2398
          node.offline = False
2399
          result.append(("offline", "clear offline status due to drain"))
2400

    
2401
    # this will trigger configuration file update, if needed
2402
    self.cfg.Update(node)
2403
    # this will trigger job queue propagation or cleanup
2404
    if changed_mc:
2405
      self.context.ReaddNode(node)
2406

    
2407
    return result
2408

    
2409

    
2410
class LUQueryClusterInfo(NoHooksLU):
2411
  """Query cluster configuration.
2412

2413
  """
2414
  _OP_REQP = []
2415
  REQ_BGL = False
2416

    
2417
  def ExpandNames(self):
2418
    self.needed_locks = {}
2419

    
2420
  def CheckPrereq(self):
2421
    """No prerequsites needed for this LU.
2422

2423
    """
2424
    pass
2425

    
2426
  def Exec(self, feedback_fn):
2427
    """Return cluster config.
2428

2429
    """
2430
    cluster = self.cfg.GetClusterInfo()
2431
    result = {
2432
      "software_version": constants.RELEASE_VERSION,
2433
      "protocol_version": constants.PROTOCOL_VERSION,
2434
      "config_version": constants.CONFIG_VERSION,
2435
      "os_api_version": constants.OS_API_VERSION,
2436
      "export_version": constants.EXPORT_VERSION,
2437
      "architecture": (platform.architecture()[0], platform.machine()),
2438
      "name": cluster.cluster_name,
2439
      "master": cluster.master_node,
2440
      "default_hypervisor": cluster.default_hypervisor,
2441
      "enabled_hypervisors": cluster.enabled_hypervisors,
2442
      "hvparams": dict([(hypervisor, cluster.hvparams[hypervisor])
2443
                        for hypervisor in cluster.enabled_hypervisors]),
2444
      "beparams": cluster.beparams,
2445
      "candidate_pool_size": cluster.candidate_pool_size,
2446
      "default_bridge": cluster.default_bridge,
2447
      "master_netdev": cluster.master_netdev,
2448
      "volume_group_name": cluster.volume_group_name,
2449
      "file_storage_dir": cluster.file_storage_dir,
2450
      }
2451

    
2452
    return result
2453

    
2454

    
2455
class LUQueryConfigValues(NoHooksLU):
2456
  """Return configuration values.
2457

2458
  """
2459
  _OP_REQP = []
2460
  REQ_BGL = False
2461
  _FIELDS_DYNAMIC = utils.FieldSet()
2462
  _FIELDS_STATIC = utils.FieldSet("cluster_name", "master_node", "drain_flag")
2463

    
2464
  def ExpandNames(self):
2465
    self.needed_locks = {}
2466

    
2467
    _CheckOutputFields(static=self._FIELDS_STATIC,
2468
                       dynamic=self._FIELDS_DYNAMIC,
2469
                       selected=self.op.output_fields)
2470

    
2471
  def CheckPrereq(self):
2472
    """No prerequisites.
2473

2474
    """
2475
    pass
2476

    
2477
  def Exec(self, feedback_fn):
2478
    """Dump a representation of the cluster config to the standard output.
2479

2480
    """
2481
    values = []
2482
    for field in self.op.output_fields:
2483
      if field == "cluster_name":
2484
        entry = self.cfg.GetClusterName()
2485
      elif field == "master_node":
2486
        entry = self.cfg.GetMasterNode()
2487
      elif field == "drain_flag":
2488
        entry = os.path.exists(constants.JOB_QUEUE_DRAIN_FILE)
2489
      else:
2490
        raise errors.ParameterError(field)
2491
      values.append(entry)
2492
    return values
2493

    
2494

    
2495
class LUActivateInstanceDisks(NoHooksLU):
2496
  """Bring up an instance's disks.
2497

2498
  """
2499
  _OP_REQP = ["instance_name"]
2500
  REQ_BGL = False
2501

    
2502
  def ExpandNames(self):
2503
    self._ExpandAndLockInstance()
2504
    self.needed_locks[locking.LEVEL_NODE] = []
2505
    self.recalculate_locks[locking.LEVEL_NODE] = constants.LOCKS_REPLACE
2506

    
2507
  def DeclareLocks(self, level):
2508
    if level == locking.LEVEL_NODE:
2509
      self._LockInstancesNodes()
2510

    
2511
  def CheckPrereq(self):
2512
    """Check prerequisites.
2513

2514
    This checks that the instance is in the cluster.
2515

2516
    """
2517
    self.instance = self.cfg.GetInstanceInfo(self.op.instance_name)
2518
    assert self.instance is not None, \
2519
      "Cannot retrieve locked instance %s" % self.op.instance_name
2520
    _CheckNodeOnline(self, self.instance.primary_node)
2521

    
2522
  def Exec(self, feedback_fn):
2523
    """Activate the disks.
2524

2525
    """
2526
    disks_ok, disks_info = _AssembleInstanceDisks(self, self.instance)
2527
    if not disks_ok:
2528
      raise errors.OpExecError("Cannot activate block devices")
2529

    
2530
    return disks_info
2531

    
2532

    
2533
def _AssembleInstanceDisks(lu, instance, ignore_secondaries=False):
2534
  """Prepare the block devices for an instance.
2535

2536
  This sets up the block devices on all nodes.
2537

2538
  @type lu: L{LogicalUnit}
2539
  @param lu: the logical unit on whose behalf we execute
2540
  @type instance: L{objects.Instance}
2541
  @param instance: the instance for whose disks we assemble
2542
  @type ignore_secondaries: boolean
2543
  @param ignore_secondaries: if true, errors on secondary nodes
2544
      won't result in an error return from the function
2545
  @return: False if the operation failed, otherwise a list of
2546
      (host, instance_visible_name, node_visible_name)
2547
      with the mapping from node devices to instance devices
2548

2549
  """
2550
  device_info = []
2551
  disks_ok = True
2552
  iname = instance.name
2553
  # With the two passes mechanism we try to reduce the window of
2554
  # opportunity for the race condition of switching DRBD to primary
2555
  # before handshaking occured, but we do not eliminate it
2556

    
2557
  # The proper fix would be to wait (with some limits) until the
2558
  # connection has been made and drbd transitions from WFConnection
2559
  # into any other network-connected state (Connected, SyncTarget,
2560
  # SyncSource, etc.)
2561

    
2562
  # 1st pass, assemble on all nodes in secondary mode
2563
  for inst_disk in instance.disks:
2564
    for node, node_disk in inst_disk.ComputeNodeTree(instance.primary_node):
2565
      lu.cfg.SetDiskID(node_disk, node)
2566
      result = lu.rpc.call_blockdev_assemble(node, node_disk, iname, False)
2567
      msg = result.RemoteFailMsg()
2568
      if msg:
2569
        lu.proc.LogWarning("Could not prepare block device %s on node %s"
2570
                           " (is_primary=False, pass=1): %s",
2571
                           inst_disk.iv_name, node, msg)
2572
        if not ignore_secondaries:
2573
          disks_ok = False
2574

    
2575
  # FIXME: race condition on drbd migration to primary
2576

    
2577
  # 2nd pass, do only the primary node
2578
  for inst_disk in instance.disks:
2579
    for node, node_disk in inst_disk.ComputeNodeTree(instance.primary_node):
2580
      if node != instance.primary_node:
2581
        continue
2582
      lu.cfg.SetDiskID(node_disk, node)
2583
      result = lu.rpc.call_blockdev_assemble(node, node_disk, iname, True)
2584
      msg = result.RemoteFailMsg()
2585
      if msg:
2586
        lu.proc.LogWarning("Could not prepare block device %s on node %s"
2587
                           " (is_primary=True, pass=2): %s",
2588
                           inst_disk.iv_name, node, msg)
2589
        disks_ok = False
2590
    device_info.append((instance.primary_node, inst_disk.iv_name,
2591
                        result.payload))
2592

    
2593
  # leave the disks configured for the primary node
2594
  # this is a workaround that would be fixed better by
2595
  # improving the logical/physical id handling
2596
  for disk in instance.disks:
2597
    lu.cfg.SetDiskID(disk, instance.primary_node)
2598

    
2599
  return disks_ok, device_info
2600

    
2601

    
2602
def _StartInstanceDisks(lu, instance, force):
2603
  """Start the disks of an instance.
2604

2605
  """
2606
  disks_ok, dummy = _AssembleInstanceDisks(lu, instance,
2607
                                           ignore_secondaries=force)
2608
  if not disks_ok:
2609
    _ShutdownInstanceDisks(lu, instance)
2610
    if force is not None and not force:
2611
      lu.proc.LogWarning("", hint="If the message above refers to a"
2612
                         " secondary node,"
2613
                         " you can retry the operation using '--force'.")
2614
    raise errors.OpExecError("Disk consistency error")
2615

    
2616

    
2617
class LUDeactivateInstanceDisks(NoHooksLU):
2618
  """Shutdown an instance's disks.
2619

2620
  """
2621
  _OP_REQP = ["instance_name"]
2622
  REQ_BGL = False
2623

    
2624
  def ExpandNames(self):
2625
    self._ExpandAndLockInstance()
2626
    self.needed_locks[locking.LEVEL_NODE] = []
2627
    self.recalculate_locks[locking.LEVEL_NODE] = constants.LOCKS_REPLACE
2628

    
2629
  def DeclareLocks(self, level):
2630
    if level == locking.LEVEL_NODE:
2631
      self._LockInstancesNodes()
2632

    
2633
  def CheckPrereq(self):
2634
    """Check prerequisites.
2635

2636
    This checks that the instance is in the cluster.
2637

2638
    """
2639
    self.instance = self.cfg.GetInstanceInfo(self.op.instance_name)
2640
    assert self.instance is not None, \
2641
      "Cannot retrieve locked instance %s" % self.op.instance_name
2642

    
2643
  def Exec(self, feedback_fn):
2644
    """Deactivate the disks
2645

2646
    """
2647
    instance = self.instance
2648
    _SafeShutdownInstanceDisks(self, instance)
2649

    
2650

    
2651
def _SafeShutdownInstanceDisks(lu, instance):
2652
  """Shutdown block devices of an instance.
2653

2654
  This function checks if an instance is running, before calling
2655
  _ShutdownInstanceDisks.
2656

2657
  """
2658
  ins_l = lu.rpc.call_instance_list([instance.primary_node],
2659
                                      [instance.hypervisor])
2660
  ins_l = ins_l[instance.primary_node]
2661
  if ins_l.failed or not isinstance(ins_l.data, list):
2662
    raise errors.OpExecError("Can't contact node '%s'" %
2663
                             instance.primary_node)
2664

    
2665
  if instance.name in ins_l.data:
2666
    raise errors.OpExecError("Instance is running, can't shutdown"
2667
                             " block devices.")
2668

    
2669
  _ShutdownInstanceDisks(lu, instance)
2670

    
2671

    
2672
def _ShutdownInstanceDisks(lu, instance, ignore_primary=False):
2673
  """Shutdown block devices of an instance.
2674

2675
  This does the shutdown on all nodes of the instance.
2676

2677
  If the ignore_primary is false, errors on the primary node are
2678
  ignored.
2679

2680
  """
2681
  all_result = True
2682
  for disk in instance.disks:
2683
    for node, top_disk in disk.ComputeNodeTree(instance.primary_node):
2684
      lu.cfg.SetDiskID(top_disk, node)
2685
      result = lu.rpc.call_blockdev_shutdown(node, top_disk)
2686
      msg = result.RemoteFailMsg()
2687
      if msg:
2688
        lu.LogWarning("Could not shutdown block device %s on node %s: %s",
2689
                      disk.iv_name, node, msg)
2690
        if not ignore_primary or node != instance.primary_node:
2691
          all_result = False
2692
  return all_result
2693

    
2694

    
2695
def _CheckNodeFreeMemory(lu, node, reason, requested, hypervisor_name):
2696
  """Checks if a node has enough free memory.
2697

2698
  This function check if a given node has the needed amount of free
2699
  memory. In case the node has less memory or we cannot get the
2700
  information from the node, this function raise an OpPrereqError
2701
  exception.
2702

2703
  @type lu: C{LogicalUnit}
2704
  @param lu: a logical unit from which we get configuration data
2705
  @type node: C{str}
2706
  @param node: the node to check
2707
  @type reason: C{str}
2708
  @param reason: string to use in the error message
2709
  @type requested: C{int}
2710
  @param requested: the amount of memory in MiB to check for
2711
  @type hypervisor_name: C{str}
2712
  @param hypervisor_name: the hypervisor to ask for memory stats
2713
  @raise errors.OpPrereqError: if the node doesn't have enough memory, or
2714
      we cannot check the node
2715

2716
  """
2717
  nodeinfo = lu.rpc.call_node_info([node], lu.cfg.GetVGName(), hypervisor_name)
2718
  nodeinfo[node].Raise()
2719
  free_mem = nodeinfo[node].data.get('memory_free')
2720
  if not isinstance(free_mem, int):
2721
    raise errors.OpPrereqError("Can't compute free memory on node %s, result"
2722
                             " was '%s'" % (node, free_mem))
2723
  if requested > free_mem:
2724
    raise errors.OpPrereqError("Not enough memory on node %s for %s:"
2725
                             " needed %s MiB, available %s MiB" %
2726
                             (node, reason, requested, free_mem))
2727

    
2728

    
2729
class LUStartupInstance(LogicalUnit):
2730
  """Starts an instance.
2731

2732
  """
2733
  HPATH = "instance-start"
2734
  HTYPE = constants.HTYPE_INSTANCE
2735
  _OP_REQP = ["instance_name", "force"]
2736
  REQ_BGL = False
2737

    
2738
  def ExpandNames(self):
2739
    self._ExpandAndLockInstance()
2740

    
2741
  def BuildHooksEnv(self):
2742
    """Build hooks env.
2743

2744
    This runs on master, primary and secondary nodes of the instance.
2745

2746
    """
2747
    env = {
2748
      "FORCE": self.op.force,
2749
      }
2750
    env.update(_BuildInstanceHookEnvByObject(self, self.instance))
2751
    nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes)
2752
    return env, nl, nl
2753

    
2754
  def CheckPrereq(self):
2755
    """Check prerequisites.
2756

2757
    This checks that the instance is in the cluster.
2758

2759
    """
2760
    self.instance = instance = self.cfg.GetInstanceInfo(self.op.instance_name)
2761
    assert self.instance is not None, \
2762
      "Cannot retrieve locked instance %s" % self.op.instance_name
2763

    
2764
    _CheckNodeOnline(self, instance.primary_node)
2765

    
2766
    bep = self.cfg.GetClusterInfo().FillBE(instance)
2767
    # check bridges existance
2768
    _CheckInstanceBridgesExist(self, instance)
2769

    
2770
    remote_info = self.rpc.call_instance_info(instance.primary_node,
2771
                                              instance.name,
2772
                                              instance.hypervisor)
2773
    remote_info.Raise()
2774
    if not remote_info.data:
2775
      _CheckNodeFreeMemory(self, instance.primary_node,
2776
                           "starting instance %s" % instance.name,
2777
                           bep[constants.BE_MEMORY], instance.hypervisor)
2778

    
2779
  def Exec(self, feedback_fn):
2780
    """Start the instance.
2781

2782
    """
2783
    instance = self.instance
2784
    force = self.op.force
2785

    
2786
    self.cfg.MarkInstanceUp(instance.name)
2787

    
2788
    node_current = instance.primary_node
2789

    
2790
    _StartInstanceDisks(self, instance, force)
2791

    
2792
    result = self.rpc.call_instance_start(node_current, instance, None, None)
2793
    msg = result.RemoteFailMsg()
2794
    if msg:
2795
      _ShutdownInstanceDisks(self, instance)
2796
      raise errors.OpExecError("Could not start instance: %s" % msg)
2797

    
2798

    
2799
class LURebootInstance(LogicalUnit):
2800
  """Reboot an instance.
2801

2802
  """
2803
  HPATH = "instance-reboot"
2804
  HTYPE = constants.HTYPE_INSTANCE
2805
  _OP_REQP = ["instance_name", "ignore_secondaries", "reboot_type"]
2806
  REQ_BGL = False
2807

    
2808
  def ExpandNames(self):
2809
    if self.op.reboot_type not in [constants.INSTANCE_REBOOT_SOFT,
2810
                                   constants.INSTANCE_REBOOT_HARD,
2811
                                   constants.INSTANCE_REBOOT_FULL]:
2812
      raise errors.ParameterError("reboot type not in [%s, %s, %s]" %
2813
                                  (constants.INSTANCE_REBOOT_SOFT,
2814
                                   constants.INSTANCE_REBOOT_HARD,
2815
                                   constants.INSTANCE_REBOOT_FULL))
2816
    self._ExpandAndLockInstance()
2817

    
2818
  def BuildHooksEnv(self):
2819
    """Build hooks env.
2820

2821
    This runs on master, primary and secondary nodes of the instance.
2822

2823
    """
2824
    env = {
2825
      "IGNORE_SECONDARIES": self.op.ignore_secondaries,
2826
      "REBOOT_TYPE": self.op.reboot_type,
2827
      }
2828
    env.update(_BuildInstanceHookEnvByObject(self, self.instance))
2829
    nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes)
2830
    return env, nl, nl
2831

    
2832
  def CheckPrereq(self):
2833
    """Check prerequisites.
2834

2835
    This checks that the instance is in the cluster.
2836

2837
    """
2838
    self.instance = instance = self.cfg.GetInstanceInfo(self.op.instance_name)
2839
    assert self.instance is not None, \
2840
      "Cannot retrieve locked instance %s" % self.op.instance_name
2841

    
2842
    _CheckNodeOnline(self, instance.primary_node)
2843

    
2844
    # check bridges existance
2845
    _CheckInstanceBridgesExist(self, instance)
2846

    
2847
  def Exec(self, feedback_fn):
2848
    """Reboot the instance.
2849

2850
    """
2851
    instance = self.instance
2852
    ignore_secondaries = self.op.ignore_secondaries
2853
    reboot_type = self.op.reboot_type
2854

    
2855
    node_current = instance.primary_node
2856

    
2857
    if reboot_type in [constants.INSTANCE_REBOOT_SOFT,
2858
                       constants.INSTANCE_REBOOT_HARD]:
2859
      for disk in instance.disks:
2860
        self.cfg.SetDiskID(disk, node_current)
2861
      result = self.rpc.call_instance_reboot(node_current, instance,
2862
                                             reboot_type)
2863
      msg = result.RemoteFailMsg()
2864
      if msg:
2865
        raise errors.OpExecError("Could not reboot instance: %s" % msg)
2866
    else:
2867
      result = self.rpc.call_instance_shutdown(node_current, instance)
2868
      msg = result.RemoteFailMsg()
2869
      if msg:
2870
        raise errors.OpExecError("Could not shutdown instance for"
2871
                                 " full reboot: %s" % msg)
2872
      _ShutdownInstanceDisks(self, instance)
2873
      _StartInstanceDisks(self, instance, ignore_secondaries)
2874
      result = self.rpc.call_instance_start(node_current, instance, None, None)
2875
      msg = result.RemoteFailMsg()
2876
      if msg:
2877
        _ShutdownInstanceDisks(self, instance)
2878
        raise errors.OpExecError("Could not start instance for"
2879
                                 " full reboot: %s" % msg)
2880

    
2881
    self.cfg.MarkInstanceUp(instance.name)
2882

    
2883

    
2884
class LUShutdownInstance(LogicalUnit):
2885
  """Shutdown an instance.
2886

2887
  """
2888
  HPATH = "instance-stop"
2889
  HTYPE = constants.HTYPE_INSTANCE
2890
  _OP_REQP = ["instance_name"]
2891
  REQ_BGL = False
2892

    
2893
  def ExpandNames(self):
2894
    self._ExpandAndLockInstance()
2895

    
2896
  def BuildHooksEnv(self):
2897
    """Build hooks env.
2898

2899
    This runs on master, primary and secondary nodes of the instance.
2900

2901
    """
2902
    env = _BuildInstanceHookEnvByObject(self, self.instance)
2903
    nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes)
2904
    return env, nl, nl
2905

    
2906
  def CheckPrereq(self):
2907
    """Check prerequisites.
2908

2909
    This checks that the instance is in the cluster.
2910

2911
    """
2912
    self.instance = self.cfg.GetInstanceInfo(self.op.instance_name)
2913
    assert self.instance is not None, \
2914
      "Cannot retrieve locked instance %s" % self.op.instance_name
2915
    _CheckNodeOnline(self, self.instance.primary_node)
2916

    
2917
  def Exec(self, feedback_fn):
2918
    """Shutdown the instance.
2919

2920
    """
2921
    instance = self.instance
2922
    node_current = instance.primary_node
2923
    self.cfg.MarkInstanceDown(instance.name)
2924
    result = self.rpc.call_instance_shutdown(node_current, instance)
2925
    msg = result.RemoteFailMsg()
2926
    if msg:
2927
      self.proc.LogWarning("Could not shutdown instance: %s" % msg)
2928

    
2929
    _ShutdownInstanceDisks(self, instance)
2930

    
2931

    
2932
class LUReinstallInstance(LogicalUnit):
2933
  """Reinstall an instance.
2934

2935
  """
2936
  HPATH = "instance-reinstall"
2937
  HTYPE = constants.HTYPE_INSTANCE
2938
  _OP_REQP = ["instance_name"]
2939
  REQ_BGL = False
2940

    
2941
  def ExpandNames(self):
2942
    self._ExpandAndLockInstance()
2943

    
2944
  def BuildHooksEnv(self):
2945
    """Build hooks env.
2946

2947
    This runs on master, primary and secondary nodes of the instance.
2948

2949
    """
2950
    env = _BuildInstanceHookEnvByObject(self, self.instance)
2951
    nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes)
2952
    return env, nl, nl
2953

    
2954
  def CheckPrereq(self):
2955
    """Check prerequisites.
2956

2957
    This checks that the instance is in the cluster and is not running.
2958

2959
    """
2960
    instance = self.cfg.GetInstanceInfo(self.op.instance_name)
2961
    assert instance is not None, \
2962
      "Cannot retrieve locked instance %s" % self.op.instance_name
2963
    _CheckNodeOnline(self, instance.primary_node)
2964

    
2965
    if instance.disk_template == constants.DT_DISKLESS:
2966
      raise errors.OpPrereqError("Instance '%s' has no disks" %
2967
                                 self.op.instance_name)
2968
    if instance.admin_up:
2969
      raise errors.OpPrereqError("Instance '%s' is marked to be up" %
2970
                                 self.op.instance_name)
2971
    remote_info = self.rpc.call_instance_info(instance.primary_node,
2972
                                              instance.name,
2973
                                              instance.hypervisor)
2974
    remote_info.Raise()
2975
    if remote_info.data:
2976
      raise errors.OpPrereqError("Instance '%s' is running on the node %s" %
2977
                                 (self.op.instance_name,
2978
                                  instance.primary_node))
2979

    
2980
    self.op.os_type = getattr(self.op, "os_type", None)
2981
    if self.op.os_type is not None:
2982
      # OS verification
2983
      pnode = self.cfg.GetNodeInfo(
2984
        self.cfg.ExpandNodeName(instance.primary_node))
2985
      if pnode is None:
2986
        raise errors.OpPrereqError("Primary node '%s' is unknown" %
2987
                                   self.op.pnode)
2988
      result = self.rpc.call_os_get(pnode.name, self.op.os_type)
2989
      result.Raise()
2990
      if not isinstance(result.data, objects.OS):
2991
        raise errors.OpPrereqError("OS '%s' not in supported OS list for"
2992
                                   " primary node"  % self.op.os_type)
2993

    
2994
    self.instance = instance
2995

    
2996
  def Exec(self, feedback_fn):
2997
    """Reinstall the instance.
2998

2999
    """
3000
    inst = self.instance
3001

    
3002
    if self.op.os_type is not None:
3003
      feedback_fn("Changing OS to '%s'..." % self.op.os_type)
3004
      inst.os = self.op.os_type
3005
      self.cfg.Update(inst)
3006

    
3007
    _StartInstanceDisks(self, inst, None)
3008
    try:
3009
      feedback_fn("Running the instance OS create scripts...")
3010
      result = self.rpc.call_instance_os_add(inst.primary_node, inst)
3011
      msg = result.RemoteFailMsg()
3012
      if msg:
3013
        raise errors.OpExecError("Could not install OS for instance %s"
3014
                                 " on node %s: %s" %
3015
                                 (inst.name, inst.primary_node, msg))
3016
    finally:
3017
      _ShutdownInstanceDisks(self, inst)
3018

    
3019

    
3020
class LURenameInstance(LogicalUnit):
3021
  """Rename an instance.
3022

3023
  """
3024
  HPATH = "instance-rename"
3025
  HTYPE = constants.HTYPE_INSTANCE
3026
  _OP_REQP = ["instance_name", "new_name"]
3027

    
3028
  def BuildHooksEnv(self):
3029
    """Build hooks env.
3030

3031
    This runs on master, primary and secondary nodes of the instance.
3032

3033
    """
3034
    env = _BuildInstanceHookEnvByObject(self, self.instance)
3035
    env["INSTANCE_NEW_NAME"] = self.op.new_name
3036
    nl = [self.cfg.GetMasterNode()] + list(self.instance.all_nodes)
3037
    return env, nl, nl
3038

    
3039
  def CheckPrereq(self):
3040
    """Check prerequisites.
3041

3042
    This checks that the instance is in the cluster and is not running.
3043

3044
    """
3045
    instance = self.cfg.GetInstanceInfo(
3046
      self.cfg.ExpandInstanceName(self.op.instance_name))
3047
    if instance is None:
3048
      raise errors.OpPrereqError("Instance '%s' not known" %
3049
                                 self.op.instance_name)
3050
    _CheckNodeOnline(self, instance.primary_node)
3051

    
3052
    if instance.admin_up:
3053
      raise errors.OpPrereqError("Instance '%s' is marked to be up" %
3054
                                 self.op.instance_name)
3055
    remote_info = self.rpc.call_instance_info(instance.primary_node,
3056
                                              instance.name,
3057
                                              instance.hypervisor)
3058
    remote_info.Raise()
3059
    if remote_info.data:
3060
      raise errors.OpPrereqError("Instance '%s' is running on the node %s" %
3061
                                 (self.op.instance_name,
3062
                                  instance.primary_node))
3063
    self.instance = instance
3064

    
3065
    # new name verification
3066
    name_info = utils.HostInfo(self.op.new_name)
3067

    
3068
    self.op.new_name = new_name = name_info.name
3069
    instance_list = self.cfg.GetInstanceList()
3070
    if new_name in instance_list:
3071
      raise errors.OpPrereqError("Instance '%s' is already in the cluster" %
3072
                                 new_name)
3073

    
3074
    if not getattr(self.op, "ignore_ip", False):
3075
      if utils.TcpPing(name_info.ip, constants.DEFAULT_NODED_PORT):
3076
        raise errors.OpPrereqError("IP %s of instance %s already in use" %
3077
                                   (name_info.ip, new_name))
3078

    
3079

    
3080
  def Exec(self, feedback_fn):
3081
    """Reinstall the instance.
3082

3083
    """
3084
    inst = self.instance
3085
    old_name = inst.name
3086

    
3087
    if inst.disk_template == constants.DT_FILE:
3088
      old_file_storage_dir = os.path.dirname(inst.disks[0].logical_id[1])
3089

    
3090
    self.cfg.RenameInstance(inst.name, self.op.new_name)
3091
    # Change the instance lock. This is definitely safe while we hold the BGL
3092
    self.context.glm.remove(locking.LEVEL_INSTANCE, old_name)
3093
    self.context.glm.add(locking.LEVEL_INSTANCE, self.op.new_name)
3094

    
3095
    # re-read the instance from the configuration after rename
3096
    inst = self.cfg.GetInstanceInfo(self.op.new_name)
3097

    
3098
    if inst.disk_template == constants.DT_FILE:
3099
      new_file_storage_dir = os.path.dirname(inst.disks[0].logical_id[1])
3100
      result = self.rpc.call_file_storage_dir_rename(inst.primary_node,
3101
                                                     old_file_storage_dir,
3102
                                                     new_file_storage_dir)
3103
      result.Raise()
3104
      if not result.data:
3105
        raise errors.OpExecError("Could not connect to node '%s' to rename"
3106
                                 " directory '%s' to '%s' (but the instance"
3107
                                 " has been renamed in Ganeti)" % (
3108
                                 inst.primary_node, old_file_storage_dir,
3109
                                 new_file_storage_dir))
3110

    
3111
      if not result.data[0]:
3112
        raise errors.OpExecError("Could not rename directory '%s' to '%s'"
3113
                                 " (but the instance has been renamed in"
3114
                                 " Ganeti)" % (old_file_storage_dir,
3115
                                               new_file_storage_dir))
3116

    
3117
    _StartInstanceDisks(self, inst, None)
3118
    try:
3119
      result = self.rpc.call_instance_run_rename(inst.primary_node, inst,
3120
                                                 old_name)
3121
      msg = result.RemoteFailMsg()
3122
      if msg:
3123
        msg = ("Could not run OS rename script for instance %s on node %s"
3124
               " (but the instance has been renamed in Ganeti): %s" %
3125
               (inst.name, inst.primary_node, msg))
3126
        self.proc.LogWarning(msg)
3127
    finally:
3128
      _ShutdownInstanceDisks(self, inst)
3129

    
3130

    
3131
class LURemoveInstance(LogicalUnit):
3132
  """Remove an instance.
3133

3134
  """
3135
  HPATH = "instance-remove"
3136
  HTYPE = constants.HTYPE_INSTANCE
3137
  _OP_REQP = ["instance_name", "ignore_failures"]
3138
  REQ_BGL = False
3139

    
3140
  def ExpandNames(self):
3141
    self._ExpandAndLockInstance()
3142
    self.needed_locks[locking.LEVEL_NODE] = []
3143
    self.recalculate_locks[locking.LEVEL_NODE] = constants.LOCKS_REPLACE
3144

    
3145
  def DeclareLocks(self, level):
3146
    if level == locking.LEVEL_NODE:
3147
      self._LockInstancesNodes()
3148

    
3149
  def BuildHooksEnv(self):
3150
    """Build hooks env.
3151

3152
    This runs on master, primary and secondary nodes of the instance.
3153

3154
    """
3155
    env = _BuildInstanceHookEnvByObject(self, self.instance)
3156
    nl = [self.cfg.GetMasterNode()]
3157
    return env, nl, nl
3158

    
3159
  def CheckPrereq(self):
3160
    """Check prerequisites.
3161

3162
    This checks that the instance is in the cluster.
3163

3164
    """
3165
    self.instance = self.cfg.GetInstanceInfo(self.op.instance_name)
3166
    assert self.instance is not None, \
3167
      "Cannot retrieve locked instance %s" % self.op.instance_name
3168

    
3169
  def Exec(self, feedback_fn):
3170
    """Remove the instance.
3171

3172
    """
3173
    instance = self.instance
3174
    logging.info("Shutting down instance %s on node %s",
3175
                 instance.name, instance.primary_node)
3176

    
3177
    result = self.rpc.call_instance_shutdown(instance.primary_node, instance)
3178
    msg = result.RemoteFailMsg()
3179
    if msg:
3180
      if self.op.ignore_failures:
3181
        feedback_fn("Warning: can't shutdown instance: %s" % msg)
3182
      else:
3183
        raise errors.OpExecError("Could not shutdown instance %s on"
3184
                                 " node %s: %s" %
3185
                                 (instance.name, instance.primary_node, msg))
3186

    
3187
    logging.info("Removing block devices for instance %s", instance.name)
3188

    
3189
    if not _RemoveDisks(self, instance):
3190
      if self.op.ignore_failures:
3191
        feedback_fn("Warning: can't remove instance's disks")
3192
      else:
3193
        raise errors.OpExecError("Can't remove instance's disks")
3194

    
3195
    logging.info("Removing instance %s out of cluster config", instance.name)
3196

    
3197
    self.cfg.RemoveInstance(instance.name)
3198
    self.remove_locks[locking.LEVEL_INSTANCE] = instance.name
3199

    
3200

    
3201
class LUQueryInstances(NoHooksLU):
3202
  """Logical unit for querying instances.
3203

3204
  """
3205
  _OP_REQP = ["output_fields", "names", "use_locking"]
3206
  REQ_BGL = False
3207
  _FIELDS_STATIC = utils.FieldSet(*["name", "os", "pnode", "snodes",
3208
                                    "admin_state",
3209
                                    "disk_template", "ip", "mac", "bridge",
3210
                                    "sda_size", "sdb_size", "vcpus", "tags",
3211
                                    "network_port", "beparams",
3212
                                    r"(disk)\.(size)/([0-9]+)",
3213
                                    r"(disk)\.(sizes)", "disk_usage",
3214
                                    r"(nic)\.(mac|ip|bridge)/([0-9]+)",
3215
                                    r"(nic)\.(macs|ips|bridges)",
3216
                                    r"(disk|nic)\.(count)",
3217
                                    "serial_no", "hypervisor", "hvparams",] +
3218
                                  ["hv/%s" % name
3219
                                   for name in constants.HVS_PARAMETERS] +
3220
                                  ["be/%s" % name
3221
                                   for name in constants.BES_PARAMETERS])
3222
  _FIELDS_DYNAMIC = utils.FieldSet("oper_state", "oper_ram", "status")
3223

    
3224

    
3225
  def ExpandNames(self):
3226
    _CheckOutputFields(static=self._FIELDS_STATIC,
3227
                       dynamic=self._FIELDS_DYNAMIC,
3228
                       selected=self.op.output_fields)
3229

    
3230
    self.needed_locks = {}
3231
    self.share_locks[locking.LEVEL_INSTANCE] = 1
3232
    self.share_locks[locking.LEVEL_NODE] = 1
3233

    
3234
    if self.op.names:
3235
      self.wanted = _GetWantedInstances(self, self.op.names)
3236
    else:
3237
      self.wanted = locking.ALL_SET
3238

    
3239
    self.do_node_query = self._FIELDS_STATIC.NonMatching(self.op.output_fields)
3240
    self.do_locking = self.do_node_query and self.op.use_locking
3241
    if self.do_locking:
3242
      self.needed_locks[locking.LEVEL_INSTANCE] = self.wanted
3243
      self.needed_locks[locking.LEVEL_NODE] = []
3244
      self.recalculate_locks[locking.LEVEL_NODE] = constants.LOCKS_REPLACE
3245

    
3246
  def DeclareLocks(self, level):
3247
    if level == locking.LEVEL_NODE and self.do_locking:
3248
      self._LockInstancesNodes()
3249

    
3250
  def CheckPrereq(self):
3251
    """Check prerequisites.
3252

3253
    """
3254
    pass
3255

    
3256
  def Exec(self, feedback_fn):
3257
    """Computes the list of nodes and their attributes.
3258

3259
    """
3260
    all_info = self.cfg.GetAllInstancesInfo()
3261
    if self.wanted == locking.ALL_SET:
3262
      # caller didn't specify instance names, so ordering is not important
3263
      if self.do_locking:
3264
        instance_names = self.acquired_locks[locking.LEVEL_INSTANCE]
3265
      else:
3266
        instance_names = all_info.keys()
3267
      instance_names = utils.NiceSort(instance_names)
3268
    else:
3269
      # caller did specify names, so we must keep the ordering
3270
      if self.do_locking:
3271
        tgt_set = self.acquired_locks[locking.LEVEL_INSTANCE]
3272
      else:
3273
        tgt_set = all_info.keys()
3274
      missing = set(self.wanted).difference(tgt_set)
3275
      if missing:
3276
        raise errors.OpExecError("Some instances were removed before"
3277
                                 " retrieving their data: %s" % missing)
3278
      instance_names = self.wanted
3279

    
3280
    instance_list = [all_info[iname] for iname in instance_names]
3281

    
3282
    # begin data gathering
3283

    
3284
    nodes = frozenset([inst.primary_node for inst in instance_list])
3285
    hv_list = list(set([inst.hypervisor for inst in instance_list]))
3286

    
3287
    bad_nodes = []
3288
    off_nodes = []
3289
    if self.do_node_query:
3290
      live_data = {}
3291
      node_data = self.rpc.call_all_instances_info(nodes, hv_list)
3292
      for name in nodes:
3293
        result = node_data[name]
3294
        if result.offline:
3295
          # offline nodes will be in both lists
3296
          off_nodes.append(name)
3297
        if result.failed:
3298
          bad_nodes.append(name)
3299
        else:
3300
          if result.data:
3301
            live_data.update(result.data)
3302
            # else no instance is alive
3303
    else:
3304
      live_data = dict([(name, {}) for name in instance_names])
3305

    
3306
    # end data gathering
3307

    
3308
    HVPREFIX = "hv/"
3309
    BEPREFIX = "be/"
3310
    output = []
3311
    for instance in instance_list:
3312
      iout = []
3313
      i_hv = self.cfg.GetClusterInfo().FillHV(instance)
3314
      i_be = self.cfg.GetClusterInfo().FillBE(instance)
3315
      for field in self.op.output_fields:
3316
        st_match = self._FIELDS_STATIC.Matches(field)
3317
        if field == "name":
3318
          val = instance.name
3319
        elif field == "os":
3320
          val = instance.os
3321
        elif field == "pnode":
3322
          val = instance.primary_node
3323
        elif field == "snodes":
3324
          val = list(instance.secondary_nodes)
3325
        elif field == "admin_state":
3326
          val = instance.admin_up
3327
        elif field == "oper_state":
3328
          if instance.primary_node in bad_nodes:
3329
            val = None
3330
          else:
3331
            val = bool(live_data.get(instance.name))
3332
        elif field == "status":
3333
          if instance.primary_node in off_nodes:
3334
            val = "ERROR_nodeoffline"
3335
          elif instance.primary_node in bad_nodes:
3336
            val = "ERROR_nodedown"
3337
          else:
3338
            running = bool(live_data.get(instance.name))
3339
            if running:
3340
              if instance.admin_up:
3341
                val = "running"
3342
              else:
3343
                val = "ERROR_up"
3344
            else:
3345
              if instance.admin_up:
3346
                val = "ERROR_down"
3347
              else:
3348
                val = "ADMIN_down"
3349
        elif field == "oper_ram":
3350
          if instance.primary_node in bad_nodes:
3351
            val = None
3352
          elif instance.name in live_data:
3353
            val = live_data[instance.name].get("memory", "?")
3354
          else:
3355
            val = "-"
3356
        elif field == "disk_template":
3357
          val = instance.disk_template
3358
        elif field == "ip":
3359
          val = instance.nics[0].ip
3360
        elif field == "bridge":
3361
          val = instance.nics[0].bridge
3362
        elif field == "mac":
3363
          val = instance.nics[0].mac
3364
        elif field == "sda_size" or field == "sdb_size":
3365
          idx = ord(field[2]) - ord('a')
3366
          try:
3367
            val = instance.FindDisk(idx).size
3368
          except errors.OpPrereqError:
3369
            val = None
3370
        elif field == "disk_usage": # total disk usage per node
3371
          disk_sizes = [{'size': disk.size} for disk in instance.disks]
3372
          val = _ComputeDiskSize(instance.disk_template, disk_sizes)
3373
        elif field == "tags":
3374
          val = list(instance.GetTags())
3375
        elif field == "serial_no":
3376
          val = instance.serial_no
3377
        elif field == "network_port":
3378
          val = instance.network_port
3379
        elif field == "hypervisor":
3380
          val = instance.hypervisor
3381
        elif field == "hvparams":
3382
          val = i_hv
3383
        elif (field.startswith(HVPREFIX) and
3384
              field[len(HVPREFIX):] in constants.HVS_PARAMETERS):
3385
          val = i_hv.get(field[len(HVPREFIX):], None)
3386
        elif field == "beparams":
3387
          val = i_be
3388
        elif (field.startswith(BEPREFIX) and
3389
              field[len(BEPREFIX):] in constants.BES_PARAMETERS):
3390
          val = i_be.get(field[len(BEPREFIX):], None)
3391
        elif st_match and st_match.groups():
3392
          # matches a variable list
3393
          st_groups = st_match.groups()
3394
          if st_groups and st_groups[0] == "disk":
3395
            if st_groups[1] == "count":
3396
              val = len(instance.disks)
3397
            elif st_groups[1] == "sizes":
3398
              val = [disk.size for disk in instance.disks]
3399
            elif st_groups[1] == "size":
3400
              try:
3401
                val = instance.FindDisk(st_groups[2]).size
3402
              except errors.OpPrereqError:
3403
                val = None
3404
            else:
3405
              assert False, "Unhandled disk parameter"
3406
          elif st_groups[0] == "nic":
3407
            if st_groups[1] == "count":
3408
              val = len(instance.nics)
3409
            elif st_groups[1] == "macs":
3410
              val = [nic.mac for nic in instance.nics]
3411
            elif st_groups[1] == "ips":
3412
              val = [nic.ip for nic in instance.nics]
3413
            elif st_groups[1] == "bridges":
3414
              val = [nic.bridge for nic in instance.nics]
3415
            else:
3416
              # index-based item
3417
              nic_idx = int(st_groups[2])
3418
              if nic_idx >= len(instance.nics):
3419
                val = None
3420
              else:
3421
                if st_groups[1] == "mac":
3422
                  val = instance.nics[nic_idx].mac
3423
                elif st_groups[1] == "ip":
3424
                  val = instance.nics[nic_idx].ip
3425
                elif st_groups[1] == "bridge":
3426
                  val = instance.nics[nic_idx].bridge
3427
                else:
3428
                  assert False, "Unhandled NIC parameter"
3429
          else:
3430
            assert False, "Unhandled variable parameter"
3431
        else:
3432
          raise errors.ParameterError(field)
3433
        iout.append(val)
3434
      output.append(iout)
3435

    
3436
    return output
3437

    
3438

    
3439
class LUFailoverInstance(LogicalUnit):
3440
  """Failover an instance.
3441

3442
  """
3443
  HPATH = "instance-failover"
3444
  HTYPE = constants.HTYPE_INSTANCE
3445
  _OP_REQP = ["instance_name", "ignore_consistency"]
3446
  REQ_BGL = False
3447

    
3448
  def ExpandNames(self):
3449
    self._ExpandAndLockInstance()
3450
    self.needed_locks[locking.LEVEL_NODE] = []
3451
    self.recalculate_locks[locking.LEVEL_NODE] = constants.LOCKS_REPLACE
3452

    
3453
  def DeclareLocks(self, level):
3454
    if level == locking.LEVEL_NODE:
3455
      self._LockInstancesNodes()
3456

    
3457
  def BuildHooksEnv(self):
3458
    """Build hooks env.
3459

3460
    This runs on master, primary and secondary nodes of the instance.
3461

3462
    """
3463
    env = {
3464
      "IGNORE_CONSISTENCY": self.op.ignore_consistency,
3465
      }
3466
    env.update(_BuildInstanceHookEnvByObject(self, self.instance))
3467
    nl = [self.cfg.GetMasterNode()] + list(self.instance.secondary_nodes)
3468
    return env, nl, nl
3469

    
3470
  def CheckPrereq(self):
3471
    """Check prerequisites.
3472

3473
    This checks that the instance is in the cluster.
3474

3475
    """
3476
    self.instance = instance = self.cfg.GetInstanceInfo(self.op.instance_name)
3477
    assert self.instance is not None, \
3478
      "Cannot retrieve locked instance %s" % self.op.instance_name
3479

    
3480
    bep = self.cfg.GetClusterInfo().FillBE(instance)
3481
    if instance.disk_template not in constants.DTS_NET_MIRROR:
3482
      raise errors.OpPrereqError("Instance's disk layout is not"
3483
                                 " network mirrored, cannot failover.")
3484

    
3485
    secondary_nodes = instance.secondary_nodes
3486
    if not secondary_nodes:
3487
      raise errors.ProgrammerError("no secondary node but using "
3488
                                   "a mirrored disk template")
3489

    
3490
    target_node = secondary_nodes[0]
3491
    _CheckNodeOnline(self, target_node)
3492
    _CheckNodeNotDrained(self, target_node)
3493
    # check memory requirements on the secondary node
3494
    _CheckNodeFreeMemory(self, target_node, "failing over instance %s" %
3495
                         instance.name, bep[constants.BE_MEMORY],
3496
                         instance.hypervisor)
3497

    
3498
    # check bridge existance
3499
    brlist = [nic.bridge for nic in instance.nics]
3500
    result = self.rpc.call_bridges_exist(target_node, brlist)
3501
    result.Raise()
3502
    if not result.data:
3503
      raise errors.OpPrereqError("One or more target bridges %s does not"
3504
                                 " exist on destination node '%s'" %
3505
                                 (brlist, target_node))
3506

    
3507
  def Exec(self, feedback_fn):
3508
    """Failover an instance.
3509

3510
    The failover is done by shutting it down on its present node and
3511
    starting it on the secondary.
3512

3513
    """
3514
    instance = self.instance
3515

    
3516
    source_node = instance.primary_node
3517
    target_node = instance.secondary_nodes[0]
3518

    
3519
    feedback_fn("* checking disk consistency between source and target")
3520
    for dev in instance.disks:
3521
      # for drbd, these are drbd over lvm
3522
      if not _CheckDiskConsistency(self, dev, target_node, False):
3523
        if instance.admin_up and not self.op.ignore_consistency:
3524
          raise errors.OpExecError("Disk %s is degraded on target node,"
3525
                                   " aborting failover." % dev.iv_name)
3526

    
3527
    feedback_fn("* shutting down instance on source node")
3528
    logging.info("Shutting down instance %s on node %s",
3529
                 instance.name, source_node)
3530

    
3531
    result = self.rpc.call_instance_shutdown(source_node, instance)
3532
    msg = result.RemoteFailMsg()
3533
    if msg:
3534
      if self.op.ignore_consistency:
3535
        self.proc.LogWarning("Could not shutdown instance %s on node %s."
3536
                             " Proceeding anyway. Please make sure node"
3537
                             " %s is down. Error details: %s",
3538
                             instance.name, source_node, source_node, msg)
3539
      else:
3540
        raise errors.OpExecError("Could not shutdown instance %s on"
3541
                                 " node %s: %s" %
3542
                                 (instance.name, source_node, msg))
3543

    
3544
    feedback_fn("* deactivating the instance's disks on source node")
3545
    if not _ShutdownInstanceDisks(self, instance, ignore_primary=True):
3546
      raise errors.OpExecError("Can't shut down the instance's disks.")
3547

    
3548
    instance.primary_node = target_node
3549
    # distribute new instance config to the other nodes
3550
    self.cfg.Update(instance)
3551

    
3552
    # Only start the instance if it's marked as up
3553
    if instance.admin_up:
3554
      feedback_fn("* activating the instance's disks on target node")
3555
      logging.info("Starting instance %s on node %s",
3556
                   instance.name, target_node)
3557

    
3558
      disks_ok, dummy = _AssembleInstanceDisks(self, instance,
3559
                                               ignore_secondaries=True)
3560
      if not disks_ok:
3561
        _ShutdownInstanceDisks(self, instance)
3562
        raise errors.OpExecError("Can't activate the instance's disks")
3563

    
3564
      feedback_fn("* starting the instance on the target node")
3565
      result = self.rpc.call_instance_start(target_node, instance, None, None)
3566
      msg = result.RemoteFailMsg()
3567
      if msg:
3568
        _ShutdownInstanceDisks(self, instance)
3569
        raise errors.OpExecError("Could not start instance %s on node %s: %s" %
3570
                                 (instance.name, target_node, msg))
3571

    
3572

    
3573
class LUMigrateInstance(LogicalUnit):
3574
  """Migrate an instance.
3575

3576
  This is migration without shutting down, compared to the failover,
3577
  which is done with shutdown.
3578

3579
  """
3580
  HPATH = "instance-migrate"
3581
  HTYPE = constants.HTYPE_INSTANCE
3582
  _OP_REQP = ["instance_name", "live", "cleanup"]
3583

    
3584
  REQ_BGL = False
3585

    
3586
  def ExpandNames(self):
3587
    self._ExpandAndLockInstance()
3588
    self.needed_locks[locking.LEVEL_NODE] = []
3589
    self.recalculate_locks[locking.LEVEL_NODE] = constants.LOCKS_REPLACE
3590

    
3591
  def DeclareLocks(self, level):
3592
    if level == locking.LEVEL_NODE:
3593
      self._LockInstancesNodes()
3594

    
3595
  def BuildHooksEnv(self):
3596
    """Build hooks env.
3597

3598
    This runs on master, primary and secondary nodes of the instance.
3599

3600
    """
3601
    env = _BuildInstanceHookEnvByObject(self, self.instance)
3602
    env["MIGRATE_LIVE"] = self.op.live
3603
    env["MIGRATE_CLEANUP"] = self.op.cleanup
3604
    nl = [self.cfg.GetMasterNode()] + list(self.instance.secondary_nodes)
3605
    return env, nl, nl
3606

    
3607
  def CheckPrereq(self):
3608
    """Check prerequisites.
3609

3610
    This checks that the instance is in the cluster.
3611

3612
    """
3613
    instance = self.cfg.GetInstanceInfo(
3614
      self.cfg.ExpandInstanceName(self.op.instance_name))
3615
    if instance is None:
3616
      raise errors.OpPrereqError("Instance '%s' not known" %
3617
                                 self.op.instance_name)
3618

    
3619
    if instance.disk_template != constants.DT_DRBD8:
3620
      raise errors.OpPrereqError("Instance's disk layout is not"
3621
                                 " drbd8, cannot migrate.")
3622

    
3623
    secondary_nodes = instance.secondary_nodes
3624
    if not secondary_nodes:
3625
      raise errors.ConfigurationError("No secondary node but using"
3626
                                      " drbd8 disk template")
3627

    
3628
    i_be = self.cfg.GetClusterInfo().FillBE(instance)
3629

    
3630
    target_node = secondary_nodes[0]
3631
    # check memory requirements on the secondary node
3632
    _CheckNodeFreeMemory(self, target_node, "migrating instance %s" %
3633
                         instance.name, i_be[constants.BE_MEMORY],
3634
                         instance.hypervisor)
3635

    
3636
    # check bridge existance
3637
    brlist = [nic.bridge for nic in instance.nics]
3638
    result = self.rpc.call_bridges_exist(target_node, brlist)
3639
    if result.failed or not result.data:
3640
      raise errors.OpPrereqError("One or more target bridges %s does not"
3641
                                 " exist on destination node '%s'" %
3642
                                 (brlist, target_node))
3643

    
3644
    if not self.op.cleanup:
3645
      _CheckNodeNotDrained(self, target_node)
3646
      result = self.rpc.call_instance_migratable(instance.primary_node,
3647
                                                 instance)
3648
      msg = result.RemoteFailMsg()
3649
      if msg:
3650
        raise errors.OpPrereqError("Can't migrate: %s - please use failover" %
3651
                                   msg)
3652

    
3653
    self.instance = instance
3654

    
3655
  def _WaitUntilSync(self):
3656
    """Poll with custom rpc for disk sync.
3657

3658
    This uses our own step-based rpc call.
3659

3660
    """
3661
    self.feedback_fn("* wait until resync is done")
3662
    all_done = False
3663
    while not all_done:
3664
      all_done = True
3665
      result = self.rpc.call_drbd_wait_sync(self.all_nodes,
3666
                                            self.nodes_ip,
3667
                                            self.instance.disks)
3668
      min_percent = 100
3669
      for node, nres in result.items():
3670
        msg = nres.RemoteFailMsg()
3671
        if msg:
3672
          raise errors.OpExecError("Cannot resync disks on node %s: %s" %
3673
                                   (node, msg))
3674
        node_done, node_percent = nres.payload
3675
        all_done = all_done and node_done
3676
        if node_percent is not None:
3677
          min_percent = min(min_percent, node_percent)
3678
      if not all_done:
3679
        if min_percent < 100:
3680
          self.feedback_fn("   - progress: %.1f%%" % min_percent)
3681
        time.sleep(2)
3682

    
3683
  def _EnsureSecondary(self, node):
3684
    """Demote a node to secondary.
3685

3686
    """
3687
    self.feedback_fn("* switching node %s to secondary mode" % node)
3688

    
3689
    for dev in self.instance.disks:
3690
      self.cfg.SetDiskID(dev, node)
3691

    
3692
    result = self.rpc.call_blockdev_close(node, self.instance.name,
3693
                                          self.instance.disks)
3694
    msg = result.RemoteFailMsg()
3695
    if msg:
3696
      raise errors.OpExecError("Cannot change disk to secondary on node %s,"
3697
                               " error %s" % (node, msg))
3698

    
3699
  def _GoStandalone(self):
3700
    """Disconnect from the network.
3701

3702
    """
3703
    self.feedback_fn("* changing into standalone mode")
3704
    result = self.rpc.call_drbd_disconnect_net(self.all_nodes, self.nodes_ip,
3705
                                               self.instance.disks)
3706
    for node, nres in result.items():
3707
      msg = nres.RemoteFailMsg()
3708
      if msg:
3709
        raise errors.OpExecError("Cannot disconnect disks node %s,"
3710
                                 " error %s" % (node, msg))
3711

    
3712
  def _GoReconnect(self, multimaster):
3713
    """Reconnect to the network.
3714

3715
    """
3716
    if multimaster:
3717
      msg = "dual-master"
3718
    else:
3719
      msg = "single-master"
3720
    self.feedback_fn("* changing disks into %s mode" % msg)
3721
    result = self.rpc.call_drbd_attach_net(self.all_nodes, self.nodes_ip,
3722
                                           self.instance.disks,
3723
                                           self.instance.name, multimaster)
3724
    for node, nres in result.items():
3725
      msg = nres.RemoteFailMsg()
3726
      if msg:
3727
        raise errors.OpExecError("Cannot change disks config on node %s,"
3728
                                 " error: %s" % (node, msg))
3729

    
3730
  def _ExecCleanup(self):
3731
    """Try to cleanup after a failed migration.
3732

3733
    The cleanup is done by:
3734
      - check that the instance is running only on one node
3735
        (and update the config if needed)
3736
      - change disks on its secondary node to secondary
3737
      - wait until disks are fully synchronized
3738
      - disconnect from the network
3739
      - change disks into single-master mode
3740
      - wait again until disks are fully synchronized
3741

3742
    """
3743
    instance = self.instance
3744
    target_node = self.target_node
3745
    source_node = self.source_node
3746

    
3747
    # check running on only one node
3748
    self.feedback_fn("* checking where the instance actually runs"
3749
                     " (if this hangs, the hypervisor might be in"
3750
                     " a bad state)")
3751
    ins_l = self.rpc.call_instance_list(self.all_nodes, [instance.hypervisor])
3752
    for node, result in ins_l.items():
3753
      result.Raise()
3754
      if not isinstance(result.data, list):
3755
        raise errors.OpExecError("Can't contact node '%s'" % node)
3756

    
3757
    runningon_source = instance.name in ins_l[source_node].data
3758
    runningon_target = instance.name in ins_l[target_node].data
3759

    
3760
    if runningon_source and runningon_target:
3761
      raise errors.OpExecError("Instance seems to be running on two nodes,"
3762
                               " or the hypervisor is confused. You will have"
3763
                               " to ensure manually that it runs only on one"
3764
                               " and restart this operation.")
3765

    
3766
    if not (runningon_source or runningon_target):
3767
      raise errors.OpExecError("Instance does not seem to be running at all."
3768
                               " In this case, it's safer to repair by"
3769
                               " running 'gnt-instance stop' to ensure disk"
3770
                               " shutdown, and then restarting it.")
3771

    
3772
    if runningon_target:
3773
      # the migration has actually succeeded, we need to update the config
3774
      self.feedback_fn("* instance running on secondary node (%s),"
3775
                       " updating config" % target_node)
3776
      instance.primary_node = target_node
3777
      self.cfg.Update(instance)
3778
      demoted_node = source_node
3779
    else:
3780
      self.feedback_fn("* instance confirmed to be running on its"
3781
                       " primary node (%s)" % source_node)
3782
      demoted_node = target_node
3783

    
3784
    self._EnsureSecondary(demoted_node)
3785
    try:
3786
      self._WaitUntilSync()
3787
    except errors.OpExecError:
3788
      # we ignore here errors, since if the device is standalone, it
3789
      # won't be able to sync
3790
      pass
3791
    self._GoStandalone()
3792
    self._GoReconnect(False)
3793
    self._WaitUntilSync()
3794

    
3795
    self.feedback_fn("* done")
3796

    
3797
  def _RevertDiskStatus(self):
3798
    """Try to revert the disk status after a failed migration.
3799

3800
    """
3801
    target_node = self.target_node
3802
    try:
3803
      self._EnsureSecondary(target_node)
3804
      self._GoStandalone()
3805
      self._GoReconnect(False)
3806
      self._WaitUntilSync()
3807
    except errors.OpExecError, err:
3808
      self.LogWarning("Migration failed and I can't reconnect the"
3809
                      " drives: error '%s'\n"
3810
                      "Please look and recover the instance status" %
3811
                      str(err))
3812

    
3813
  def _AbortMigration(self):
3814
    """Call the hypervisor code to abort a started migration.
3815

3816
    """
3817
    instance = self.instance
3818
    target_node = self.target_node
3819
    migration_info = self.migration_info
3820

    
3821
    abort_result = self.rpc.call_finalize_migration(target_node,
3822
                                                    instance,
3823
                                                    migration_info,
3824
                                                    False)
3825
    abort_msg = abort_result.RemoteFailMsg()
3826
    if abort_msg:
3827
      logging.error("Aborting migration failed on target node %s: %s" %
3828
                    (target_node, abort_msg))
3829
      # Don't raise an exception here, as we stil have to try to revert the
3830
      # disk status, even if this step failed.
3831

    
3832
  def _ExecMigration(self):
3833
    """Migrate an instance.
3834

3835
    The migrate is done by:
3836
      - change the disks into dual-master mode
3837
      - wait until disks are fully synchronized again
3838
      - migrate the instance
3839
      - change disks on the new secondary node (the old primary) to secondary
3840
      - wait until disks are fully synchronized
3841
      - change disks into single-master mode
3842

3843
    """
3844
    instance = self.instance
3845
    target_node = self.target_node
3846
    source_node = self.source_node
3847

    
3848
    self.feedback_fn("* checking disk consistency between source and target")
3849
    for dev in instance.disks:
3850
      if not _CheckDiskConsistency(self, dev, target_node, False):
3851
        raise errors.OpExecError("Disk %s is degraded or not fully"
3852
                                 " synchronized on target node,"
3853
                                 " aborting migrate." % dev.iv_name)
3854

    
3855
    # First get the migration information from the remote node
3856
    result = self.rpc.call_migration_info(source_node, instance)
3857
    msg = result.RemoteFailMsg()
3858
    if msg:
3859
      log_err = ("Failed fetching source migration information from %s: %s" %
3860
                 (source_node, msg))
3861
      logging.error(log_err)
3862
      raise errors.OpExecError(log_err)
3863

    
3864
    self.migration_info = migration_info = result.payload
3865

    
3866
    # Then switch the disks to master/master mode
3867
    self._EnsureSecondary(target_node)
3868
    self._GoStandalone()
3869
    self._GoReconnect(True)
3870
    self._WaitUntilSync()
3871

    
3872
    self.feedback_fn("* preparing %s to accept the instance" % target_node)
3873
    result = self.rpc.call_accept_instance(target_node,
3874
                                           instance,
3875
                                           migration_info,
3876
                                           self.nodes_ip[target_node])
3877

    
3878
    msg = result.RemoteFailMsg()
3879
    if msg:
3880
      logging.error("Instance pre-migration failed, trying to revert"
3881
                    " disk status: %s", msg)
3882
      self._AbortMigration()
3883
      self._RevertDiskStatus()
3884
      raise errors.OpExecError("Could not pre-migrate instance %s: %s" %
3885
                               (instance.name, msg))
3886

    
3887
    self.feedback_fn("* migrating instance to %s" % target_node)
3888
    time.sleep(10)
3889
    result = self.rpc.call_instance_migrate(source_node, instance,
3890
                                            self.nodes_ip[target_node],
3891
                                            self.op.live)
3892
    msg = result.RemoteFailMsg()
3893
    if msg:
3894
      logging.error("Instance migration failed, trying to revert"
3895
                    " disk status: %s", msg)
3896
      self._AbortMigration()
3897
      self._RevertDiskStatus()
3898
      raise errors.OpExecError("Could not migrate instance %s: %s" %
3899
                               (instance.name, msg))
3900
    time.sleep(10)
3901

    
3902
    instance.primary_node = target_node
3903
    # distribute new instance config to the other nodes
3904
    self.cfg.Update(instance)
3905

    
3906
    result = self.rpc.call_finalize_migration(target_node,
3907
                                              instance,
3908
                                              migration_info,
3909
                                              True)
3910
    msg = result.RemoteFailMsg()
3911
    if msg:
3912
      logging.error("Instance migration succeeded, but finalization failed:"
3913
                    " %s" % msg)
3914
      raise errors.OpExecError("Could not finalize instance migration: %s" %
3915
                               msg)
3916

    
3917
    self._EnsureSecondary(source_node)
3918
    self._WaitUntilSync()
3919
    self._GoStandalone()
3920
    self._GoReconnect(False)
3921
    self._WaitUntilSync()
3922

    
3923
    self.feedback_fn("* done")
3924

    
3925
  def Exec(self, feedback_fn):
3926
    """Perform the migration.
3927

3928
    """
3929
    self.feedback_fn = feedback_fn
3930

    
3931
    self.source_node = self.instance.primary_node
3932
    self.target_node = self.instance.secondary_nodes[0]
3933
    self.all_nodes = [self.source_node, self.target_node]
3934
    self.nodes_ip = {
3935
      self.source_node: self.cfg.GetNodeInfo(self.source_node).secondary_ip,
3936
      self.target_node: self.cfg.GetNodeInfo(self.target_node).secondary_ip,
3937
      }
3938
    if self.op.cleanup:
3939
      return self._ExecCleanup()
3940
    else:
3941
      return self._ExecMigration()
3942

    
3943

    
3944
def _CreateBlockDev(lu, node, instance, device, force_create,
3945
                    info, force_open):
3946
  """Create a tree of block devices on a given node.
3947

3948
  If this device type has to be created on secondaries, create it and
3949
  all its children.
3950

3951
  If not, just recurse to children keeping the same 'force' value.
3952

3953
  @param lu: the lu on whose behalf we execute
3954
  @param node: the node on which to create the device
3955
  @type instance: L{objects.Instance}
3956
  @param instance: the instance which owns the device
3957
  @type device: L{objects.Disk}
3958
  @param device: the device to create
3959
  @type force_create: boolean
3960
  @param force_create: whether to force creation of this device; this
3961
      will be change to True whenever we find a device which has
3962
      CreateOnSecondary() attribute
3963
  @param info: the extra 'metadata' we should attach to the device
3964
      (this will be represented as a LVM tag)
3965
  @type force_open: boolean
3966
  @param force_open: this parameter will be passes to the
3967
      L{backend.BlockdevCreate} function where it specifies
3968
      whether we run on primary or not, and it affects both
3969
      the child assembly and the device own Open() execution
3970

3971
  """
3972
  if device.CreateOnSecondary():
3973
    force_create = True
3974

    
3975
  if device.children:
3976
    for child in device.children:
3977
      _CreateBlockDev(lu, node, instance, child, force_create,
3978
                      info, force_open)
3979

    
3980
  if not force_create:
3981
    return
3982

    
3983
  _CreateSingleBlockDev(lu, node, instance, device, info, force_open)
3984

    
3985

    
3986
def _CreateSingleBlockDev(lu, node, instance, device, info, force_open):
3987
  """Create a single block device on a given node.
3988

3989
  This will not recurse over children of the device, so they must be
3990
  created in advance.
3991

3992
  @param lu: the lu on whose behalf we execute
3993
  @param node: the node on which to create the device
3994
  @type instance: L{objects.Instance}
3995
  @param instance: the instance which owns the device
3996
  @type device: L{objects.Disk}
3997
  @param device: the device to create
3998
  @param info: the extra 'metadata' we should attach to the device
3999
      (this will be represented as a LVM tag)
4000
  @type force_open: boolean
4001
  @param force_open: this parameter will be passes to the
4002
      L{backend.BlockdevCreate} function where it specifies
4003
      whether we run on primary or not, and it affects both
4004
      the child assembly and the device own Open() execution
4005