import ConfigParser
import re
+import copy
from cStringIO import StringIO
from ganeti import errors
__all__ = ["ConfigObject", "ConfigData", "NIC", "Disk", "Instance",
- "OS", "Node", "Cluster"]
+ "OS", "Node", "Cluster", "FillDict"]
+
+def FillDict(defaults_dict, custom_dict):
+ """Basic function to apply settings on top a default dict.
+
+ @type defaults_dict: dict
+ @param defaults_dict: dictionary holding the default values
+ @type custom_dict: dict
+ @param custom_dict: dictionary holding customized value
+ @rtype: dict
+ @return: dict with the 'full' values
+
+ """
+ ret_dict = copy.deepcopy(defaults_dict)
+ ret_dict.update(custom_dict)
+ return ret_dict
+
+
+def UpgradeGroupedParams(target, defaults):
+ """Update all groups for the target parameter.
+
+ @type target: dict of dicts
+ @param target: {group: {parameter: value}}
+ @type defaults: dict
+ @param defaults: default parameter values
+
+ """
+ if target is None:
+ target = {constants.PP_DEFAULT: defaults}
+ else:
+ for group in target:
+ target[group] = FillDict(defaults, target[group])
+ return target
class ConfigObject(object):
as None instead of raising an error
Classes derived from this must always declare __slots__ (we use many
- config objects and the memory reduction is useful.
+ config objects and the memory reduction is useful)
"""
__slots__ = []
def __init__(self, **kwargs):
for k, v in kwargs.iteritems():
setattr(self, k, v)
+ self.UpgradeConfig()
def __getattr__(self, name):
if name not in self.__slots__:
"""Implement __repr__ for ConfigObjects."""
return repr(self.ToDict())
+ def UpgradeConfig(self):
+ """Fill defaults for missing configuration values.
+
+ This method will be called at object init time, and its implementation will
+ be object dependent.
+
+ """
+ pass
+
class TaggableObject(ConfigObject):
"""An generic class supporting tags.
constants.MAX_TAG_LEN)
if not tag:
raise errors.TagError("Tags cannot be empty")
- if not re.match("^[ \w.+*/:-]+$", tag):
+ if not re.match("^[\w.+*/:-]+$", tag):
raise errors.TagError("Tag contains invalid characters")
def GetTags(self):
class ConfigData(ConfigObject):
"""Top-level config object."""
- __slots__ = ["cluster", "nodes", "instances", "serial_no"]
+ __slots__ = ["version", "cluster", "nodes", "instances", "serial_no"]
def ToDict(self):
"""Custom function for top-level config data.
class NIC(ConfigObject):
"""Config object representing a network card."""
- __slots__ = ["mac", "ip", "bridge"]
+ __slots__ = ["mac", "ip", "bridge", "nicparams"]
+
+ @classmethod
+ def CheckParameterSyntax(cls, nicparams):
+ """Check the given parameters for validity.
+
+ @type nicparams: dict
+ @param nicparams: dictionary with parameter names/value
+ @raise errors.ConfigurationError: when a parameter is not valid
+
+ """
+ if nicparams[constants.NIC_MODE] not in constants.NIC_VALID_MODES:
+ err = "Invalid nic mode: %s" % nicparams[constants.NIC_MODE]
+ raise errors.ConfigurationError(err)
+
+ if (nicparams[constants.NIC_MODE] is constants.NIC_MODE_BRIDGED and
+ not nicparams[constants.NIC_LINK]):
+ err = "Missing bridged nic link"
+ raise errors.ConfigurationError(err)
+
+ def UpgradeConfig(self):
+ """Fill defaults for missing configuration values.
+
+ """
+ if self.nicparams is None:
+ self.nicparams = {}
+ if self.bridge is not None:
+ self.nicparams[constants.NIC_MODE] = constants.NIC_MODE_BRIDGED
+ self.nicparams[constants.NIC_LINK] = self.bridge
+ # bridge is no longer used it 2.1. The slot is left there to support
+ # upgrading, but will be removed in 2.2
+ if self.bridge is not None:
+ self.bridge = None
class Disk(ConfigObject):
"""Config object representing a block device."""
__slots__ = ["dev_type", "logical_id", "physical_id",
- "children", "iv_name", "size"]
+ "children", "iv_name", "size", "mode"]
def CreateOnSecondary(self):
"""Test if this device needs to be created on a secondary node."""
if self.logical_id is None and self.physical_id is not None:
return
if self.dev_type in constants.LDS_DRBD:
- pnode, snode, port, pminor, sminor = self.logical_id
+ pnode, snode, port, pminor, sminor, secret = self.logical_id
if target_node not in (pnode, snode):
raise errors.ConfigurationError("DRBD device not knowing node %s" %
target_node)
p_data = (pnode_ip, port)
s_data = (snode_ip, port)
if pnode == target_node:
- self.physical_id = p_data + s_data + (pminor,)
+ self.physical_id = p_data + s_data + (pminor, secret)
else: # it must be secondary, we tested above
- self.physical_id = s_data + p_data + (sminor,)
+ self.physical_id = s_data + p_data + (sminor, secret)
else:
self.physical_id = self.logical_id
return
obj.logical_id = tuple(obj.logical_id)
if obj.physical_id and isinstance(obj.physical_id, list):
obj.physical_id = tuple(obj.physical_id)
- if obj.dev_type in constants.LDS_DRBD and len(obj.logical_id) == 3:
- # old non-minor based disk type
- obj.logical_id += (None, None)
+ if obj.dev_type in constants.LDS_DRBD:
+ # we need a tuple of length six here
+ if len(obj.logical_id) < 6:
+ obj.logical_id += (None,) * (6 - len(obj.logical_id))
return obj
def __str__(self):
if self.dev_type == constants.LD_LV:
val = "<LogicalVolume(/dev/%s/%s" % self.logical_id
elif self.dev_type in constants.LDS_DRBD:
+ node_a, node_b, port, minor_a, minor_b = self.logical_id[:5]
val = "<DRBD8("
if self.physical_id is None:
phy = "unconfigured"
(self.physical_id[0], self.physical_id[1],
self.physical_id[2], self.physical_id[3]))
- val += ("hosts=%s-%s, port=%s, %s, " %
- (self.logical_id[0], self.logical_id[1], self.logical_id[2],
- phy))
+ val += ("hosts=%s/%d-%s/%d, port=%s, %s, " %
+ (node_a, minor_a, node_b, minor_b, port, phy))
if self.children and self.children.count(None) == 0:
val += "backend=%s, metadev=%s" % (self.children[0], self.children[1])
else:
val += ", not visible"
else:
val += ", visible as /dev/%s" % self.iv_name
- val += ", size=%dm)>" % self.size
+ if isinstance(self.size, int):
+ val += ", size=%dm)>" % self.size
+ else:
+ val += ", size='%s')>" % (self.size,)
return val
+ def Verify(self):
+ """Checks that this disk is correctly configured.
+
+ """
+ errors = []
+ if self.mode not in constants.DISK_ACCESS_SET:
+ errors.append("Disk access mode '%s' is invalid" % (self.mode, ))
+ return errors
+
class Instance(TaggableObject):
"""Config object representing an instance."""
"name",
"primary_node",
"os",
- "status",
- "memory",
- "vcpus",
+ "hypervisor",
+ "hvparams",
+ "beparams",
+ "admin_up",
"nics",
"disks",
"disk_template",
"network_port",
- "kernel_path",
- "initrd_path",
- "hvm_boot_order",
- "hvm_acpi",
- "hvm_pae",
- "hvm_cdrom_image_path",
- "hvm_nic_type",
- "hvm_disk_type",
- "vnc_bind_address",
"serial_no",
]
def _ComputeSecondaryNodes(self):
"""Compute the list of secondary nodes.
+ This is a simple wrapper over _ComputeAllNodes.
+
+ """
+ all_nodes = set(self._ComputeAllNodes())
+ all_nodes.discard(self.primary_node)
+ return tuple(all_nodes)
+
+ secondary_nodes = property(_ComputeSecondaryNodes, None, None,
+ "List of secondary nodes")
+
+ def _ComputeAllNodes(self):
+ """Compute the list of all nodes.
+
Since the data is already there (in the drbd disks), keeping it as
a separate normal attribute is redundant and if not properly
synchronised can cause problems. Thus it's better to compute it
dynamically.
"""
- def _Helper(primary, sec_nodes, device):
- """Recursively computes secondary nodes given a top device."""
+ def _Helper(nodes, device):
+ """Recursively computes nodes given a top device."""
if device.dev_type in constants.LDS_DRBD:
- nodea, nodeb, dummy = device.logical_id[:3]
- if nodea == primary:
- candidate = nodeb
- else:
- candidate = nodea
- if candidate not in sec_nodes:
- sec_nodes.append(candidate)
+ nodea, nodeb = device.logical_id[:2]
+ nodes.add(nodea)
+ nodes.add(nodeb)
if device.children:
for child in device.children:
- _Helper(primary, sec_nodes, child)
+ _Helper(nodes, child)
- secondary_nodes = []
+ all_nodes = set()
+ all_nodes.add(self.primary_node)
for device in self.disks:
- _Helper(self.primary_node, secondary_nodes, device)
- return tuple(secondary_nodes)
+ _Helper(all_nodes, device)
+ return tuple(all_nodes)
- secondary_nodes = property(_ComputeSecondaryNodes, None, None,
- "List of secondary nodes")
+ all_nodes = property(_ComputeAllNodes, None, None,
+ "List of all nodes of the instance")
def MapLVsByNode(self, lvmap=None, devs=None, node=None):
"""Provide a mapping of nodes to LVs this instance owns.
- This function figures out what logical volumes should belong on which
- nodes, recursing through a device tree.
+ This function figures out what logical volumes should belong on
+ which nodes, recursing through a device tree.
- Args:
- lvmap: (optional) a dictionary to receive the 'node' : ['lv', ...] data.
+ @param lvmap: optional dictionary to receive the
+ 'node' : ['lv', ...] data.
- Returns:
- None if lvmap arg is given.
- Otherwise, { 'nodename' : ['volume1', 'volume2', ...], ... }
+ @return: None if lvmap arg is given, otherwise, a dictionary
+ of the form { 'nodename' : ['volume1', 'volume2', ...], ... }
"""
if node == None:
lvmap[node].append(dev.logical_id[1])
elif dev.dev_type in constants.LDS_DRBD:
- if dev.logical_id[0] not in lvmap:
- lvmap[dev.logical_id[0]] = []
-
- if dev.logical_id[1] not in lvmap:
- lvmap[dev.logical_id[1]] = []
-
if dev.children:
self.MapLVsByNode(lvmap, dev.children, dev.logical_id[0])
self.MapLVsByNode(lvmap, dev.children, dev.logical_id[1])
return ret
- def FindDisk(self, name):
- """Find a disk given having a specified name.
+ def FindDisk(self, idx):
+ """Find a disk given having a specified index.
- This will return the disk which has the given iv_name.
+ This is just a wrapper that does validation of the index.
- """
- for disk in self.disks:
- if disk.iv_name == name:
- return disk
+ @type idx: int
+ @param idx: the disk index
+ @rtype: L{Disk}
+ @return: the corresponding disk
+ @raise errors.OpPrereqError: when the given index is not valid
- return None
+ """
+ try:
+ idx = int(idx)
+ return self.disks[idx]
+ except ValueError, err:
+ raise errors.OpPrereqError("Invalid disk index: '%s'" % str(err))
+ except IndexError:
+ raise errors.OpPrereqError("Invalid disk index: %d (instace has disks"
+ " 0 to %d" % (idx, len(self.disks)))
def ToDict(self):
"""Instance-specific conversion to standard python types.
"name",
"path",
"status",
- "api_version",
+ "api_versions",
"create_script",
"export_script",
"import_script",
"primary_ip",
"secondary_ip",
"serial_no",
+ "master_candidate",
+ "offline",
+ "drained",
]
"mac_prefix",
"volume_group_name",
"default_bridge",
+ "default_hypervisor",
+ "master_node",
+ "master_ip",
+ "master_netdev",
+ "cluster_name",
+ "file_storage_dir",
+ "enabled_hypervisors",
+ "hvparams",
+ "beparams",
+ "nicparams",
+ "candidate_pool_size",
+ "modify_etc_hosts",
]
+ def UpgradeConfig(self):
+ """Fill defaults for missing configuration values.
+
+ """
+ if self.hvparams is None:
+ self.hvparams = constants.HVC_DEFAULTS
+ else:
+ for hypervisor in self.hvparams:
+ self.hvparams[hypervisor] = FillDict(
+ constants.HVC_DEFAULTS[hypervisor], self.hvparams[hypervisor])
+
+ self.beparams = UpgradeGroupedParams(self.beparams,
+ constants.BEC_DEFAULTS)
+ migrate_default_bridge = not self.nicparams
+ self.nicparams = UpgradeGroupedParams(self.nicparams,
+ constants.NICC_DEFAULTS)
+ if migrate_default_bridge:
+ self.nicparams[constants.PP_DEFAULT][constants.NIC_LINK] = \
+ self.default_bridge
+
+ if self.modify_etc_hosts is None:
+ self.modify_etc_hosts = True
+
+ # default_bridge is no longer used it 2.1. The slot is left there to
+ # support auto-upgrading, but will be removed in 2.2
+ if self.default_bridge is not None:
+ self.default_bridge = None
+
def ToDict(self):
"""Custom function for cluster.
obj.tcpudp_port_pool = set(obj.tcpudp_port_pool)
return obj
+ def FillHV(self, instance):
+ """Fill an instance's hvparams dict.
+
+ @type instance: object
+ @param instance: the instance parameter to fill
+ @rtype: dict
+ @return: a copy of the instance's hvparams with missing keys filled from
+ the cluster defaults
+
+ """
+ return FillDict(self.hvparams.get(instance.hypervisor, {}),
+ instance.hvparams)
+
+ def FillBE(self, instance):
+ """Fill an instance's beparams dict.
+
+ @type instance: object
+ @param instance: the instance parameter to fill
+ @rtype: dict
+ @return: a copy of the instance's beparams with missing keys filled from
+ the cluster defaults
+
+ """
+ return FillDict(self.beparams.get(constants.PP_DEFAULT, {}),
+ instance.beparams)
+
class SerializableConfigParser(ConfigParser.SafeConfigParser):
"""Simple wrapper over ConfigParse that allows serialization.