from ganeti import rpc
from ganeti import objects
from ganeti import serializer
-from ganeti import ssconf
_config_lock = locking.SharedLock()
-def ValidateConfig():
- sstore = ssconf.SimpleStore()
-
- if sstore.GetConfigVersion() != constants.CONFIG_VERSION:
+def _ValidateConfig(data):
+ if data.version != constants.CONFIG_VERSION:
raise errors.ConfigurationError("Cluster configuration version"
" mismatch, got %s instead of %s" %
- (sstore.GetConfigVersion(),
+ (data.version,
constants.CONFIG_VERSION))
all_macs = self._AllMACs()
return mac in all_macs
+ @locking.ssynchronized(_config_lock, shared=1)
+ def GenerateDRBDSecret(self):
+ """Generate a DRBD secret.
+
+ This checks the current disks for duplicates.
+
+ """
+ self._OpenConfig()
+ all_secrets = self._AllDRBDSecrets()
+ retries = 64
+ while retries > 0:
+ secret = utils.GenerateSecret()
+ if secret not in all_secrets:
+ break
+ retries -= 1
+ else:
+ raise errors.ConfigurationError("Can't generate unique DRBD secret")
+ return secret
+
def _ComputeAllLVs(self):
"""Compute the list of all LVs.
return result
+ def _AllDRBDSecrets(self):
+ """Return all DRBD secrets present in the config.
+
+ """
+ def helper(disk, result):
+ """Recursively gather secrets from this disk."""
+ if disk.dev_type == constants.DT_DRBD8:
+ result.append(disk.logical_id[5])
+ if disk.children:
+ for child in disk.children:
+ helper(child, result)
+
+ result = []
+ for instance in self._config_data.instances.values():
+ for disk in instance.disks:
+ helper(disk, result)
+
+ return result
+
@locking.ssynchronized(_config_lock, shared=1)
def VerifyConfig(self):
"""Stub verify function.
result = []
seen_macs = []
+ ports = {}
data = self._config_data
for instance_name in data.instances:
instance = data.instances[instance_name]
(instance_name, idx, nic.mac))
else:
seen_macs.append(nic.mac)
+
+ # gather the drbd ports for duplicate checks
+ for dsk in instance.disks:
+ if dsk.dev_type in constants.LDS_DRBD:
+ tcp_port = dsk.logical_id[2]
+ if tcp_port not in ports:
+ ports[tcp_port] = []
+ ports[tcp_port].append((instance.name, "drbd disk %s" % dsk.iv_name))
+ # gather network port reservation
+ net_port = getattr(instance, "network_port", None)
+ if net_port is not None:
+ if net_port not in ports:
+ ports[net_port] = []
+ ports[net_port].append((instance.name, "network port"))
+
+ # cluster-wide pool of free ports
+ for free_port in self._config_data.cluster.tcpudp_port_pool:
+ if free_port not in ports:
+ ports[free_port] = []
+ ports[free_port].append(("cluster", "port marked as free"))
+
+ # compute tcp/udp duplicate ports
+ keys = ports.keys()
+ keys.sort()
+ for pnum in keys:
+ pdata = ports[pnum]
+ if len(pdata) > 1:
+ txt = ", ".join(["%s/%s" % val for val in pdata])
+ result.append("tcp/udp port %s has duplicates: %s" % (pnum, txt))
+
+ # highest used tcp port check
+ if keys:
+ if keys[-1] > self._config_data.cluster.highest_used_port:
+ result.append("Highest used port mismatch, saved %s, computed %s" %
+ (self._config_data.cluster.highest_used_port,
+ keys[-1]))
+
return result
def _UnlockedSetDiskID(self, disk, node_name):
if disk.logical_id is None and disk.physical_id is not None:
return
if disk.dev_type == constants.LD_DRBD8:
- pnode, snode, port, pminor, sminor = disk.logical_id
+ pnode, snode, port, pminor, sminor, secret = disk.logical_id
if node_name not in (pnode, snode):
raise errors.ConfigurationError("DRBD device not knowing node %s" %
node_name)
p_data = (pnode_info.secondary_ip, port)
s_data = (snode_info.secondary_ip, port)
if pnode == node_name:
- disk.physical_id = p_data + s_data + (pminor,)
+ disk.physical_id = p_data + s_data + (pminor, secret)
else: # it must be secondary, we tested above
- disk.physical_id = s_data + p_data + (sminor,)
+ disk.physical_id = s_data + p_data + (sminor, secret)
else:
disk.physical_id = disk.logical_id
return
"""
def _AppendUsedPorts(instance_name, disk, used):
- if disk.dev_type == constants.LD_DRBD8 and len(disk.logical_id) == 5:
- nodeA, nodeB, dummy, minorA, minorB = disk.logical_id
+ if disk.dev_type == constants.LD_DRBD8 and len(disk.logical_id) >= 5:
+ nodeA, nodeB, dummy, minorA, minorB = disk.logical_id[:5]
for node, port in ((nodeA, minorA), (nodeB, minorB)):
assert node in used, "Instance node not found in node list"
if port in used[node]:
# no minors used, we can start at 0
result.append(0)
ndata[0] = instance
+ self._temporary_drbds[(nname, 0)] = instance
continue
keys = ndata.keys()
keys.sort()
del self._temporary_drbds[key]
@locking.ssynchronized(_config_lock, shared=1)
+ def GetConfigVersion(self):
+ """Get the configuration version.
+
+ @return: Config version
+
+ """
+ return self._config_data.version
+
+ @locking.ssynchronized(_config_lock, shared=1)
+ def GetClusterName(self):
+ """Get cluster name.
+
+ @return: Cluster name
+
+ """
+ self._OpenConfig()
+ return self._config_data.cluster.cluster_name
+
+ @locking.ssynchronized(_config_lock, shared=1)
+ def GetMasterNode(self):
+ """Get the hostname of the master node for this cluster.
+
+ @return: Master hostname
+
+ """
+ self._OpenConfig()
+ return self._config_data.cluster.master_node
+
+ @locking.ssynchronized(_config_lock, shared=1)
+ def GetMasterIP(self):
+ """Get the IP of the master node for this cluster.
+
+ @return: Master IP
+
+ """
+ self._OpenConfig()
+ return self._config_data.cluster.master_ip
+
+ @locking.ssynchronized(_config_lock, shared=1)
+ def GetMasterNetdev(self):
+ """Get the master network device for this cluster.
+
+ """
+ self._OpenConfig()
+ return self._config_data.cluster.master_netdev
+
+ @locking.ssynchronized(_config_lock, shared=1)
+ def GetFileStorageDir(self):
+ """Get the file storage dir for this cluster.
+
+ """
+ self._OpenConfig()
+ return self._config_data.cluster.file_storage_dir
+
+ @locking.ssynchronized(_config_lock, shared=1)
+ def GetHypervisorType(self):
+ """Get the hypervisor type for this cluster.
+
+ """
+ self._OpenConfig()
+ return self._config_data.cluster.hypervisor
+
+ @locking.ssynchronized(_config_lock, shared=1)
def GetHostKey(self):
"""Return the rsa hostkey from the config.
self._OpenConfig()
instance.serial_no = 1
self._config_data.instances[instance.name] = instance
+ self._config_data.cluster.serial_no += 1
self._WriteConfig()
def _SetInstanceStatus(self, instance_name, status):
if instance_name not in self._config_data.instances:
raise errors.ConfigurationError("Unknown instance '%s'" % instance_name)
del self._config_data.instances[instance_name]
+ self._config_data.cluster.serial_no += 1
self._WriteConfig()
@locking.ssynchronized(_config_lock)
disk.iv_name))
self._config_data.instances[inst.name] = inst
+ self._config_data.cluster.serial_no += 1
self._WriteConfig()
@locking.ssynchronized(_config_lock)
self._OpenConfig()
node.serial_no = 1
self._config_data.nodes[node.name] = node
+ self._config_data.cluster.serial_no += 1
self._WriteConfig()
@locking.ssynchronized(_config_lock)
raise errors.ConfigurationError("Unknown node '%s'" % node_name)
del self._config_data.nodes[node_name]
+ self._config_data.cluster.serial_no += 1
self._WriteConfig()
@locking.ssynchronized(_config_lock, shared=1)
for node in self._UnlockedGetNodeList()])
return my_dict
- @locking.ssynchronized(_config_lock, shared=1)
- def DumpConfig(self):
- """Return the entire configuration of the cluster.
- """
- self._OpenConfig()
- return self._config_data
-
def _BumpSerialNo(self):
"""Bump up the serial number of the config.
# data is current, so skip loading of config file
return
- # Make sure the configuration has the right version
- ValidateConfig()
-
f = open(self._cfg_file, 'r')
try:
try:
raise errors.ConfigurationError(err)
finally:
f.close()
+
+ # Make sure the configuration has the right version
+ _ValidateConfig(data)
+
if (not hasattr(data, 'cluster') or
not hasattr(data.cluster, 'rsahostkeypub')):
raise errors.ConfigurationError("Incomplete configuration"
self._DistributeConfig()
@locking.ssynchronized(_config_lock)
- def InitConfig(self, node, primary_ip, secondary_ip,
- hostkeypub, mac_prefix, vg_name, def_bridge):
+ def InitConfig(self, version, cluster_config, master_node_config):
"""Create the initial cluster configuration.
It will contain the current node, which will also be the master
- node, and no instances or operating systmes.
+ node, and no instances.
- Args:
- node: the nodename of the initial node
- primary_ip: the IP address of the current host
- secondary_ip: the secondary IP of the current host or None
- hostkeypub: the public hostkey of this host
-
- """
- hu_port = constants.FIRST_DRBD_PORT - 1
- globalconfig = objects.Cluster(serial_no=1,
- rsahostkeypub=hostkeypub,
- highest_used_port=hu_port,
- mac_prefix=mac_prefix,
- volume_group_name=vg_name,
- default_bridge=def_bridge,
- tcpudp_port_pool=set())
- if secondary_ip is None:
- secondary_ip = primary_ip
- nodeconfig = objects.Node(name=node, primary_ip=primary_ip,
- secondary_ip=secondary_ip, serial_no=1)
-
- self._config_data = objects.ConfigData(nodes={node: nodeconfig},
+ @type version: int
+ @param version: Configuration version
+ @type cluster_config: objects.Cluster
+ @param cluster_config: Cluster configuration
+ @type master_node_config: objects.Node
+ @param master_node_config: Master node configuration
+
+ """
+ nodes = {
+ master_node_config.name: master_node_config,
+ }
+
+ self._config_data = objects.ConfigData(version=version,
+ cluster=cluster_config,
+ nodes=nodes,
instances={},
- cluster=globalconfig,
serial_no=1)
self._WriteConfig()
"""
self._OpenConfig()
self._config_data.cluster.volume_group_name = vg_name
+ self._config_data.cluster.serial_no += 1
self._WriteConfig()
@locking.ssynchronized(_config_lock, shared=1)