root / lib / objects.py @ 4dfd6266
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# Copyright (C) 2006, 2007 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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"""Transportable objects for Ganeti.
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This module provides small, mostly data-only objects which are safe to
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pass to and from external parties.
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"""
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import ConfigParser |
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import re |
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import copy |
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from cStringIO import StringIO |
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from ganeti import errors |
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from ganeti import constants |
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__all__ = ["ConfigObject", "ConfigData", "NIC", "Disk", "Instance", |
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"OS", "Node", "Cluster"] |
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class ConfigObject(object): |
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"""A generic config object.
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It has the following properties:
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- provides somewhat safe recursive unpickling and pickling for its classes
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- unset attributes which are defined in slots are always returned
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as None instead of raising an error
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Classes derived from this must always declare __slots__ (we use many
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config objects and the memory reduction is useful)
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"""
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__slots__ = [] |
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def __init__(self, **kwargs): |
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for k, v in kwargs.iteritems(): |
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setattr(self, k, v) |
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def __getattr__(self, name): |
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if name not in self.__slots__: |
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raise AttributeError("Invalid object attribute %s.%s" % |
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(type(self).__name__, name)) |
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return None |
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def __setitem__(self, key, value): |
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if key not in self.__slots__: |
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raise KeyError(key) |
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setattr(self, key, value) |
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def __getstate__(self): |
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state = {} |
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for name in self.__slots__: |
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if hasattr(self, name): |
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state[name] = getattr(self, name) |
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return state
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def __setstate__(self, state): |
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for name in state: |
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if name in self.__slots__: |
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setattr(self, name, state[name]) |
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def ToDict(self): |
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"""Convert to a dict holding only standard python types.
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The generic routine just dumps all of this object's attributes in
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a dict. It does not work if the class has children who are
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ConfigObjects themselves (e.g. the nics list in an Instance), in
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which case the object should subclass the function in order to
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make sure all objects returned are only standard python types.
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"""
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return dict([(k, getattr(self, k, None)) for k in self.__slots__]) |
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@classmethod
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def FromDict(cls, val): |
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"""Create an object from a dictionary.
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This generic routine takes a dict, instantiates a new instance of
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the given class, and sets attributes based on the dict content.
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As for `ToDict`, this does not work if the class has children
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who are ConfigObjects themselves (e.g. the nics list in an
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Instance), in which case the object should subclass the function
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and alter the objects.
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"""
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if not isinstance(val, dict): |
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raise errors.ConfigurationError("Invalid object passed to FromDict:" |
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" expected dict, got %s" % type(val)) |
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val_str = dict([(str(k), v) for k, v in val.iteritems()]) |
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obj = cls(**val_str) |
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return obj
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@staticmethod
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def _ContainerToDicts(container): |
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"""Convert the elements of a container to standard python types.
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This method converts a container with elements derived from
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ConfigData to standard python types. If the container is a dict,
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we don't touch the keys, only the values.
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"""
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if isinstance(container, dict): |
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ret = dict([(k, v.ToDict()) for k, v in container.iteritems()]) |
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elif isinstance(container, (list, tuple, set, frozenset)): |
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ret = [elem.ToDict() for elem in container] |
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else:
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raise TypeError("Invalid type %s passed to _ContainerToDicts" % |
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type(container))
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return ret
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@staticmethod
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def _ContainerFromDicts(source, c_type, e_type): |
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"""Convert a container from standard python types.
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This method converts a container with standard python types to
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ConfigData objects. If the container is a dict, we don't touch the
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keys, only the values.
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"""
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if not isinstance(c_type, type): |
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raise TypeError("Container type %s passed to _ContainerFromDicts is" |
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" not a type" % type(c_type)) |
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if c_type is dict: |
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ret = dict([(k, e_type.FromDict(v)) for k, v in source.iteritems()]) |
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elif c_type in (list, tuple, set, frozenset): |
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ret = c_type([e_type.FromDict(elem) for elem in source]) |
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else:
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raise TypeError("Invalid container type %s passed to" |
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" _ContainerFromDicts" % c_type)
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return ret
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def Copy(self): |
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"""Makes a deep copy of the current object and its children.
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"""
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dict_form = self.ToDict()
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clone_obj = self.__class__.FromDict(dict_form)
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return clone_obj
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def __repr__(self): |
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"""Implement __repr__ for ConfigObjects."""
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return repr(self.ToDict()) |
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def UpgradeConfig(self): |
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"""Fill defaults for missing configuration values.
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This method will be called at configuration load time, and its
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implementation will be object dependent.
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"""
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pass
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class TaggableObject(ConfigObject): |
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"""An generic class supporting tags.
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"""
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__slots__ = ConfigObject.__slots__ + ["tags"]
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@staticmethod
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def ValidateTag(tag): |
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"""Check if a tag is valid.
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If the tag is invalid, an errors.TagError will be raised. The
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function has no return value.
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"""
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if not isinstance(tag, basestring): |
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raise errors.TagError("Invalid tag type (not a string)") |
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if len(tag) > constants.MAX_TAG_LEN: |
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raise errors.TagError("Tag too long (>%d characters)" % |
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constants.MAX_TAG_LEN) |
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if not tag: |
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raise errors.TagError("Tags cannot be empty") |
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if not re.match("^[\w.+*/:-]+$", tag): |
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raise errors.TagError("Tag contains invalid characters") |
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def GetTags(self): |
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"""Return the tags list.
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"""
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tags = getattr(self, "tags", None) |
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if tags is None: |
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tags = self.tags = set() |
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return tags
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def AddTag(self, tag): |
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"""Add a new tag.
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"""
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self.ValidateTag(tag)
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tags = self.GetTags()
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if len(tags) >= constants.MAX_TAGS_PER_OBJ: |
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raise errors.TagError("Too many tags") |
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self.GetTags().add(tag)
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def RemoveTag(self, tag): |
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"""Remove a tag.
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"""
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self.ValidateTag(tag)
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tags = self.GetTags()
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try:
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tags.remove(tag) |
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except KeyError: |
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raise errors.TagError("Tag not found") |
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def ToDict(self): |
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"""Taggable-object-specific conversion to standard python types.
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This replaces the tags set with a list.
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"""
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bo = super(TaggableObject, self).ToDict() |
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tags = bo.get("tags", None) |
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if isinstance(tags, set): |
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bo["tags"] = list(tags) |
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return bo
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@classmethod
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def FromDict(cls, val): |
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"""Custom function for instances.
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"""
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obj = super(TaggableObject, cls).FromDict(val)
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if hasattr(obj, "tags") and isinstance(obj.tags, list): |
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obj.tags = set(obj.tags)
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return obj
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class ConfigData(ConfigObject): |
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"""Top-level config object."""
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__slots__ = ["version", "cluster", "nodes", "instances", "serial_no"] |
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def ToDict(self): |
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"""Custom function for top-level config data.
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This just replaces the list of instances, nodes and the cluster
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with standard python types.
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"""
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mydict = super(ConfigData, self).ToDict() |
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mydict["cluster"] = mydict["cluster"].ToDict() |
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for key in "nodes", "instances": |
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mydict[key] = self._ContainerToDicts(mydict[key])
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return mydict
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@classmethod
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def FromDict(cls, val): |
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"""Custom function for top-level config data
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"""
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obj = super(ConfigData, cls).FromDict(val)
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obj.cluster = Cluster.FromDict(obj.cluster) |
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obj.nodes = cls._ContainerFromDicts(obj.nodes, dict, Node)
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obj.instances = cls._ContainerFromDicts(obj.instances, dict, Instance)
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return obj
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def UpgradeConfig(self): |
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"""Fill defaults for missing configuration values.
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"""
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self.cluster.UpgradeConfig()
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for node in self.nodes.values(): |
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node.UpgradeConfig() |
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for instance in self.instances.values(): |
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instance.UpgradeConfig() |
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class NIC(ConfigObject): |
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"""Config object representing a network card."""
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__slots__ = ["mac", "ip", "bridge"] |
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class Disk(ConfigObject): |
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"""Config object representing a block device."""
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__slots__ = ["dev_type", "logical_id", "physical_id", |
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"children", "iv_name", "size", "mode"] |
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def CreateOnSecondary(self): |
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"""Test if this device needs to be created on a secondary node."""
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return self.dev_type in (constants.LD_DRBD8, constants.LD_LV) |
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def AssembleOnSecondary(self): |
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"""Test if this device needs to be assembled on a secondary node."""
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return self.dev_type in (constants.LD_DRBD8, constants.LD_LV) |
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def OpenOnSecondary(self): |
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"""Test if this device needs to be opened on a secondary node."""
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return self.dev_type in (constants.LD_LV,) |
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def StaticDevPath(self): |
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"""Return the device path if this device type has a static one.
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Some devices (LVM for example) live always at the same /dev/ path,
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irrespective of their status. For such devices, we return this
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path, for others we return None.
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"""
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if self.dev_type == constants.LD_LV: |
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return "/dev/%s/%s" % (self.logical_id[0], self.logical_id[1]) |
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return None |
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def ChildrenNeeded(self): |
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"""Compute the needed number of children for activation.
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This method will return either -1 (all children) or a positive
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number denoting the minimum number of children needed for
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activation (only mirrored devices will usually return >=0).
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Currently, only DRBD8 supports diskless activation (therefore we
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return 0), for all other we keep the previous semantics and return
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-1.
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"""
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if self.dev_type == constants.LD_DRBD8: |
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return 0 |
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return -1 |
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def GetNodes(self, node): |
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"""This function returns the nodes this device lives on.
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Given the node on which the parent of the device lives on (or, in
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case of a top-level device, the primary node of the devices'
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instance), this function will return a list of nodes on which this
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devices needs to (or can) be assembled.
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"""
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if self.dev_type in [constants.LD_LV, constants.LD_FILE]: |
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result = [node] |
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elif self.dev_type in constants.LDS_DRBD: |
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result = [self.logical_id[0], self.logical_id[1]] |
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if node not in result: |
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raise errors.ConfigurationError("DRBD device passed unknown node") |
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else:
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raise errors.ProgrammerError("Unhandled device type %s" % self.dev_type) |
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return result
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def ComputeNodeTree(self, parent_node): |
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"""Compute the node/disk tree for this disk and its children.
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This method, given the node on which the parent disk lives, will
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return the list of all (node, disk) pairs which describe the disk
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tree in the most compact way. For example, a drbd/lvm stack
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will be returned as (primary_node, drbd) and (secondary_node, drbd)
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which represents all the top-level devices on the nodes.
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"""
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my_nodes = self.GetNodes(parent_node)
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result = [(node, self) for node in my_nodes] |
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if not self.children: |
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# leaf device
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return result
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for node in my_nodes: |
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for child in self.children: |
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child_result = child.ComputeNodeTree(node) |
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if len(child_result) == 1: |
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# child (and all its descendants) is simple, doesn't split
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# over multiple hosts, so we don't need to describe it, our
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# own entry for this node describes it completely
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continue
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else:
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# check if child nodes differ from my nodes; note that
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# subdisk can differ from the child itself, and be instead
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# one of its descendants
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for subnode, subdisk in child_result: |
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if subnode not in my_nodes: |
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result.append((subnode, subdisk)) |
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# otherwise child is under our own node, so we ignore this
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# entry (but probably the other results in the list will
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# be different)
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return result
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def RecordGrow(self, amount): |
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"""Update the size of this disk after growth.
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This method recurses over the disks's children and updates their
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size correspondigly. The method needs to be kept in sync with the
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actual algorithms from bdev.
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"""
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if self.dev_type == constants.LD_LV: |
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self.size += amount
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elif self.dev_type == constants.LD_DRBD8: |
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if self.children: |
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self.children[0].RecordGrow(amount) |
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self.size += amount
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else:
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raise errors.ProgrammerError("Disk.RecordGrow called for unsupported" |
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" disk type %s" % self.dev_type) |
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def UnsetSize(self): |
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"""Sets recursively the size to zero for the disk and its children.
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"""
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if self.children: |
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for child in self.children: |
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child.UnsetSize() |
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self.size = 0 |
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def SetPhysicalID(self, target_node, nodes_ip): |
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"""Convert the logical ID to the physical ID.
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This is used only for drbd, which needs ip/port configuration.
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The routine descends down and updates its children also, because
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this helps when the only the top device is passed to the remote
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node.
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Arguments:
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- target_node: the node we wish to configure for
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- nodes_ip: a mapping of node name to ip
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The target_node must exist in in nodes_ip, and must be one of the
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nodes in the logical ID for each of the DRBD devices encountered
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in the disk tree.
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"""
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if self.children: |
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for child in self.children: |
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child.SetPhysicalID(target_node, nodes_ip) |
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if self.logical_id is None and self.physical_id is not None: |
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return
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if self.dev_type in constants.LDS_DRBD: |
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pnode, snode, port, pminor, sminor, secret = self.logical_id
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if target_node not in (pnode, snode): |
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raise errors.ConfigurationError("DRBD device not knowing node %s" % |
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target_node) |
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pnode_ip = nodes_ip.get(pnode, None)
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snode_ip = nodes_ip.get(snode, None)
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if pnode_ip is None or snode_ip is None: |
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raise errors.ConfigurationError("Can't find primary or secondary node" |
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" for %s" % str(self)) |
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p_data = (pnode_ip, port) |
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s_data = (snode_ip, port) |
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if pnode == target_node:
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self.physical_id = p_data + s_data + (pminor, secret)
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else: # it must be secondary, we tested above |
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self.physical_id = s_data + p_data + (sminor, secret)
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else:
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self.physical_id = self.logical_id |
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return
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def ToDict(self): |
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"""Disk-specific conversion to standard python types.
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This replaces the children lists of objects with lists of
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standard python types.
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"""
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bo = super(Disk, self).ToDict() |
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for attr in ("children",): |
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alist = bo.get(attr, None)
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if alist:
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bo[attr] = self._ContainerToDicts(alist)
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return bo
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@classmethod
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def FromDict(cls, val): |
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"""Custom function for Disks
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"""
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obj = super(Disk, cls).FromDict(val)
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if obj.children:
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obj.children = cls._ContainerFromDicts(obj.children, list, Disk)
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if obj.logical_id and isinstance(obj.logical_id, list): |
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obj.logical_id = tuple(obj.logical_id)
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if obj.physical_id and isinstance(obj.physical_id, list): |
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obj.physical_id = tuple(obj.physical_id)
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if obj.dev_type in constants.LDS_DRBD: |
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# we need a tuple of length six here
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if len(obj.logical_id) < 6: |
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obj.logical_id += (None,) * (6 - len(obj.logical_id)) |
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return obj
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|
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def __str__(self): |
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"""Custom str() formatter for disks.
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"""
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if self.dev_type == constants.LD_LV: |
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val = "<LogicalVolume(/dev/%s/%s" % self.logical_id |
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elif self.dev_type in constants.LDS_DRBD: |
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node_a, node_b, port, minor_a, minor_b = self.logical_id[:5] |
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val = "<DRBD8("
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if self.physical_id is None: |
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phy = "unconfigured"
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else:
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phy = ("configured as %s:%s %s:%s" %
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(self.physical_id[0], self.physical_id[1], |
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self.physical_id[2], self.physical_id[3])) |
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val += ("hosts=%s/%d-%s/%d, port=%s, %s, " %
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(node_a, minor_a, node_b, minor_b, port, phy)) |
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if self.children and self.children.count(None) == 0: |
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val += "backend=%s, metadev=%s" % (self.children[0], self.children[1]) |
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else:
|
525 |
val += "no local storage"
|
526 |
else:
|
527 |
val = ("<Disk(type=%s, logical_id=%s, physical_id=%s, children=%s" %
|
528 |
(self.dev_type, self.logical_id, self.physical_id, self.children)) |
529 |
if self.iv_name is None: |
530 |
val += ", not visible"
|
531 |
else:
|
532 |
val += ", visible as /dev/%s" % self.iv_name |
533 |
if isinstance(self.size, int): |
534 |
val += ", size=%dm)>" % self.size |
535 |
else:
|
536 |
val += ", size='%s')>" % (self.size,) |
537 |
return val
|
538 |
|
539 |
def Verify(self): |
540 |
"""Checks that this disk is correctly configured.
|
541 |
|
542 |
"""
|
543 |
all_errors = [] |
544 |
if self.mode not in constants.DISK_ACCESS_SET: |
545 |
all_errors.append("Disk access mode '%s' is invalid" % (self.mode, )) |
546 |
return all_errors
|
547 |
|
548 |
def UpgradeConfig(self): |
549 |
"""Fill defaults for missing configuration values.
|
550 |
|
551 |
"""
|
552 |
if self.children: |
553 |
for child in self.children: |
554 |
child.UpgradeConfig() |
555 |
# add here config upgrade for this disk
|
556 |
|
557 |
|
558 |
class Instance(TaggableObject): |
559 |
"""Config object representing an instance."""
|
560 |
__slots__ = TaggableObject.__slots__ + [ |
561 |
"name",
|
562 |
"primary_node",
|
563 |
"os",
|
564 |
"hypervisor",
|
565 |
"hvparams",
|
566 |
"beparams",
|
567 |
"admin_up",
|
568 |
"nics",
|
569 |
"disks",
|
570 |
"disk_template",
|
571 |
"network_port",
|
572 |
"serial_no",
|
573 |
] |
574 |
|
575 |
def _ComputeSecondaryNodes(self): |
576 |
"""Compute the list of secondary nodes.
|
577 |
|
578 |
This is a simple wrapper over _ComputeAllNodes.
|
579 |
|
580 |
"""
|
581 |
all_nodes = set(self._ComputeAllNodes()) |
582 |
all_nodes.discard(self.primary_node)
|
583 |
return tuple(all_nodes) |
584 |
|
585 |
secondary_nodes = property(_ComputeSecondaryNodes, None, None, |
586 |
"List of secondary nodes")
|
587 |
|
588 |
def _ComputeAllNodes(self): |
589 |
"""Compute the list of all nodes.
|
590 |
|
591 |
Since the data is already there (in the drbd disks), keeping it as
|
592 |
a separate normal attribute is redundant and if not properly
|
593 |
synchronised can cause problems. Thus it's better to compute it
|
594 |
dynamically.
|
595 |
|
596 |
"""
|
597 |
def _Helper(nodes, device): |
598 |
"""Recursively computes nodes given a top device."""
|
599 |
if device.dev_type in constants.LDS_DRBD: |
600 |
nodea, nodeb = device.logical_id[:2]
|
601 |
nodes.add(nodea) |
602 |
nodes.add(nodeb) |
603 |
if device.children:
|
604 |
for child in device.children: |
605 |
_Helper(nodes, child) |
606 |
|
607 |
all_nodes = set()
|
608 |
all_nodes.add(self.primary_node)
|
609 |
for device in self.disks: |
610 |
_Helper(all_nodes, device) |
611 |
return tuple(all_nodes) |
612 |
|
613 |
all_nodes = property(_ComputeAllNodes, None, None, |
614 |
"List of all nodes of the instance")
|
615 |
|
616 |
def MapLVsByNode(self, lvmap=None, devs=None, node=None): |
617 |
"""Provide a mapping of nodes to LVs this instance owns.
|
618 |
|
619 |
This function figures out what logical volumes should belong on
|
620 |
which nodes, recursing through a device tree.
|
621 |
|
622 |
@param lvmap: optional dictionary to receive the
|
623 |
'node' : ['lv', ...] data.
|
624 |
|
625 |
@return: None if lvmap arg is given, otherwise, a dictionary
|
626 |
of the form { 'nodename' : ['volume1', 'volume2', ...], ... }
|
627 |
|
628 |
"""
|
629 |
if node == None: |
630 |
node = self.primary_node
|
631 |
|
632 |
if lvmap is None: |
633 |
lvmap = { node : [] } |
634 |
ret = lvmap |
635 |
else:
|
636 |
if not node in lvmap: |
637 |
lvmap[node] = [] |
638 |
ret = None
|
639 |
|
640 |
if not devs: |
641 |
devs = self.disks
|
642 |
|
643 |
for dev in devs: |
644 |
if dev.dev_type == constants.LD_LV:
|
645 |
lvmap[node].append(dev.logical_id[1])
|
646 |
|
647 |
elif dev.dev_type in constants.LDS_DRBD: |
648 |
if dev.children:
|
649 |
self.MapLVsByNode(lvmap, dev.children, dev.logical_id[0]) |
650 |
self.MapLVsByNode(lvmap, dev.children, dev.logical_id[1]) |
651 |
|
652 |
elif dev.children:
|
653 |
self.MapLVsByNode(lvmap, dev.children, node)
|
654 |
|
655 |
return ret
|
656 |
|
657 |
def FindDisk(self, idx): |
658 |
"""Find a disk given having a specified index.
|
659 |
|
660 |
This is just a wrapper that does validation of the index.
|
661 |
|
662 |
@type idx: int
|
663 |
@param idx: the disk index
|
664 |
@rtype: L{Disk}
|
665 |
@return: the corresponding disk
|
666 |
@raise errors.OpPrereqError: when the given index is not valid
|
667 |
|
668 |
"""
|
669 |
try:
|
670 |
idx = int(idx)
|
671 |
return self.disks[idx] |
672 |
except ValueError, err: |
673 |
raise errors.OpPrereqError("Invalid disk index: '%s'" % str(err)) |
674 |
except IndexError: |
675 |
raise errors.OpPrereqError("Invalid disk index: %d (instace has disks" |
676 |
" 0 to %d" % (idx, len(self.disks))) |
677 |
|
678 |
def ToDict(self): |
679 |
"""Instance-specific conversion to standard python types.
|
680 |
|
681 |
This replaces the children lists of objects with lists of standard
|
682 |
python types.
|
683 |
|
684 |
"""
|
685 |
bo = super(Instance, self).ToDict() |
686 |
|
687 |
for attr in "nics", "disks": |
688 |
alist = bo.get(attr, None)
|
689 |
if alist:
|
690 |
nlist = self._ContainerToDicts(alist)
|
691 |
else:
|
692 |
nlist = [] |
693 |
bo[attr] = nlist |
694 |
return bo
|
695 |
|
696 |
@classmethod
|
697 |
def FromDict(cls, val): |
698 |
"""Custom function for instances.
|
699 |
|
700 |
"""
|
701 |
obj = super(Instance, cls).FromDict(val)
|
702 |
obj.nics = cls._ContainerFromDicts(obj.nics, list, NIC)
|
703 |
obj.disks = cls._ContainerFromDicts(obj.disks, list, Disk)
|
704 |
return obj
|
705 |
|
706 |
def UpgradeConfig(self): |
707 |
"""Fill defaults for missing configuration values.
|
708 |
|
709 |
"""
|
710 |
for nic in self.nics: |
711 |
nic.UpgradeConfig() |
712 |
for disk in self.disks: |
713 |
disk.UpgradeConfig() |
714 |
|
715 |
|
716 |
class OS(ConfigObject): |
717 |
"""Config object representing an operating system."""
|
718 |
__slots__ = [ |
719 |
"name",
|
720 |
"path",
|
721 |
"status",
|
722 |
"api_versions",
|
723 |
"create_script",
|
724 |
"export_script",
|
725 |
"import_script",
|
726 |
"rename_script",
|
727 |
] |
728 |
|
729 |
@classmethod
|
730 |
def FromInvalidOS(cls, err): |
731 |
"""Create an OS from an InvalidOS error.
|
732 |
|
733 |
This routine knows how to convert an InvalidOS error to an OS
|
734 |
object representing the broken OS with a meaningful error message.
|
735 |
|
736 |
"""
|
737 |
if not isinstance(err, errors.InvalidOS): |
738 |
raise errors.ProgrammerError("Trying to initialize an OS from an" |
739 |
" invalid object of type %s" % type(err)) |
740 |
|
741 |
return cls(name=err.args[0], path=err.args[1], status=err.args[2]) |
742 |
|
743 |
def __nonzero__(self): |
744 |
return self.status == constants.OS_VALID_STATUS |
745 |
|
746 |
__bool__ = __nonzero__ |
747 |
|
748 |
|
749 |
class Node(TaggableObject): |
750 |
"""Config object representing a node."""
|
751 |
__slots__ = TaggableObject.__slots__ + [ |
752 |
"name",
|
753 |
"primary_ip",
|
754 |
"secondary_ip",
|
755 |
"serial_no",
|
756 |
"master_candidate",
|
757 |
"offline",
|
758 |
"drained",
|
759 |
] |
760 |
|
761 |
|
762 |
class Cluster(TaggableObject): |
763 |
"""Config object representing the cluster."""
|
764 |
__slots__ = TaggableObject.__slots__ + [ |
765 |
"serial_no",
|
766 |
"rsahostkeypub",
|
767 |
"highest_used_port",
|
768 |
"tcpudp_port_pool",
|
769 |
"mac_prefix",
|
770 |
"volume_group_name",
|
771 |
"default_bridge",
|
772 |
"default_hypervisor",
|
773 |
"master_node",
|
774 |
"master_ip",
|
775 |
"master_netdev",
|
776 |
"cluster_name",
|
777 |
"file_storage_dir",
|
778 |
"enabled_hypervisors",
|
779 |
"hvparams",
|
780 |
"beparams",
|
781 |
"candidate_pool_size",
|
782 |
"modify_etc_hosts",
|
783 |
] |
784 |
|
785 |
def UpgradeConfig(self): |
786 |
"""Fill defaults for missing configuration values.
|
787 |
|
788 |
"""
|
789 |
if self.hvparams is None: |
790 |
self.hvparams = constants.HVC_DEFAULTS
|
791 |
else:
|
792 |
for hypervisor in self.hvparams: |
793 |
self.hvparams[hypervisor] = self.FillDict( |
794 |
constants.HVC_DEFAULTS[hypervisor], self.hvparams[hypervisor])
|
795 |
|
796 |
if self.beparams is None: |
797 |
self.beparams = {constants.BEGR_DEFAULT: constants.BEC_DEFAULTS}
|
798 |
else:
|
799 |
for begroup in self.beparams: |
800 |
self.beparams[begroup] = self.FillDict(constants.BEC_DEFAULTS, |
801 |
self.beparams[begroup])
|
802 |
|
803 |
if self.modify_etc_hosts is None: |
804 |
self.modify_etc_hosts = True |
805 |
|
806 |
def ToDict(self): |
807 |
"""Custom function for cluster.
|
808 |
|
809 |
"""
|
810 |
mydict = super(Cluster, self).ToDict() |
811 |
mydict["tcpudp_port_pool"] = list(self.tcpudp_port_pool) |
812 |
return mydict
|
813 |
|
814 |
@classmethod
|
815 |
def FromDict(cls, val): |
816 |
"""Custom function for cluster.
|
817 |
|
818 |
"""
|
819 |
obj = super(Cluster, cls).FromDict(val)
|
820 |
if not isinstance(obj.tcpudp_port_pool, set): |
821 |
obj.tcpudp_port_pool = set(obj.tcpudp_port_pool)
|
822 |
return obj
|
823 |
|
824 |
@staticmethod
|
825 |
def FillDict(defaults_dict, custom_dict): |
826 |
"""Basic function to apply settings on top a default dict.
|
827 |
|
828 |
@type defaults_dict: dict
|
829 |
@param defaults_dict: dictionary holding the default values
|
830 |
@type custom_dict: dict
|
831 |
@param custom_dict: dictionary holding customized value
|
832 |
@rtype: dict
|
833 |
@return: dict with the 'full' values
|
834 |
|
835 |
"""
|
836 |
ret_dict = copy.deepcopy(defaults_dict) |
837 |
ret_dict.update(custom_dict) |
838 |
return ret_dict
|
839 |
|
840 |
def FillHV(self, instance): |
841 |
"""Fill an instance's hvparams dict.
|
842 |
|
843 |
@type instance: L{objects.Instance}
|
844 |
@param instance: the instance parameter to fill
|
845 |
@rtype: dict
|
846 |
@return: a copy of the instance's hvparams with missing keys filled from
|
847 |
the cluster defaults
|
848 |
|
849 |
"""
|
850 |
return self.FillDict(self.hvparams.get(instance.hypervisor, {}), |
851 |
instance.hvparams) |
852 |
|
853 |
def FillBE(self, instance): |
854 |
"""Fill an instance's beparams dict.
|
855 |
|
856 |
@type instance: L{objects.Instance}
|
857 |
@param instance: the instance parameter to fill
|
858 |
@rtype: dict
|
859 |
@return: a copy of the instance's beparams with missing keys filled from
|
860 |
the cluster defaults
|
861 |
|
862 |
"""
|
863 |
return self.FillDict(self.beparams.get(constants.BEGR_DEFAULT, {}), |
864 |
instance.beparams) |
865 |
|
866 |
|
867 |
class SerializableConfigParser(ConfigParser.SafeConfigParser): |
868 |
"""Simple wrapper over ConfigParse that allows serialization.
|
869 |
|
870 |
This class is basically ConfigParser.SafeConfigParser with two
|
871 |
additional methods that allow it to serialize/unserialize to/from a
|
872 |
buffer.
|
873 |
|
874 |
"""
|
875 |
def Dumps(self): |
876 |
"""Dump this instance and return the string representation."""
|
877 |
buf = StringIO() |
878 |
self.write(buf)
|
879 |
return buf.getvalue()
|
880 |
|
881 |
@staticmethod
|
882 |
def Loads(data): |
883 |
"""Load data from a string."""
|
884 |
buf = StringIO(data) |
885 |
cfp = SerializableConfigParser() |
886 |
cfp.readfp(buf) |
887 |
return cfp
|