#
#
-# Copyright (C) 2006, 2007 Google Inc.
+# Copyright (C) 2006, 2007, 2008, 2009, 2010 Google Inc.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
from ganeti import objects
from ganeti import ssconf
from ganeti import serializer
+from ganeti import netutils
+from ganeti import runtime
_BOOT_ID_PATH = "/proc/sys/kernel/random/boot_id"
for consumption here or from the node daemon.
@rtype: tuple
- @return: master_netdev, master_ip, master_name
+ @return: master_netdev, master_ip, master_name, primary_ip_family
@raise RPCFail: in case of errors
"""
master_netdev = cfg.GetMasterNetdev()
master_ip = cfg.GetMasterIP()
master_node = cfg.GetMasterNode()
+ primary_ip_family = cfg.GetPrimaryIPFamily()
except errors.ConfigurationError, err:
_Fail("Cluster configuration incomplete: %s", err, exc=True)
- return (master_netdev, master_ip, master_node)
+ return (master_netdev, master_ip, master_node, primary_ip_family)
def StartMaster(start_daemons, no_voting):
"""Activate local node as master node.
- The function will always try activate the IP address of the master
- (unless someone else has it). It will also start the master daemons,
- based on the start_daemons parameter.
+ The function will either try activate the IP address of the master
+ (unless someone else has it) or also start the master daemons, based
+ on the start_daemons parameter.
@type start_daemons: boolean
- @param start_daemons: whether to also start the master
- daemons (ganeti-masterd and ganeti-rapi)
+ @param start_daemons: whether to start the master daemons
+ (ganeti-masterd and ganeti-rapi), or (if false) activate the
+ master ip
@type no_voting: boolean
@param no_voting: whether to start ganeti-masterd without a node vote
(if start_daemons is True), but still non-interactively
"""
# GetMasterInfo will raise an exception if not able to return data
- master_netdev, master_ip, _ = GetMasterInfo()
+ master_netdev, master_ip, _, family = GetMasterInfo()
err_msgs = []
- if utils.TcpPing(master_ip, constants.DEFAULT_NODED_PORT):
- if utils.OwnIpAddress(master_ip):
- # we already have the ip:
- logging.debug("Master IP already configured, doing nothing")
- else:
- msg = "Someone else has the master ip, not activating"
- logging.error(msg)
- err_msgs.append(msg)
- else:
- result = utils.RunCmd(["ip", "address", "add", "%s/32" % master_ip,
- "dev", master_netdev, "label",
- "%s:0" % master_netdev])
- if result.failed:
- msg = "Can't activate master IP: %s" % result.output
- logging.error(msg)
- err_msgs.append(msg)
-
- result = utils.RunCmd(["arping", "-q", "-U", "-c 3", "-I", master_netdev,
- "-s", master_ip, master_ip])
- # we'll ignore the exit code of arping
-
- # and now start the master and rapi daemons
+ # either start the master and rapi daemons
if start_daemons:
if no_voting:
masterd_args = "--no-voting --yes-do-it"
msg = "Can't start Ganeti master: %s" % result.output
logging.error(msg)
err_msgs.append(msg)
+ # or activate the IP
+ else:
+ if netutils.TcpPing(master_ip, constants.DEFAULT_NODED_PORT):
+ if netutils.IPAddress.Own(master_ip):
+ # we already have the ip:
+ logging.debug("Master IP already configured, doing nothing")
+ else:
+ msg = "Someone else has the master ip, not activating"
+ logging.error(msg)
+ err_msgs.append(msg)
+ else:
+ ipcls = netutils.IP4Address
+ if family == netutils.IP6Address.family:
+ ipcls = netutils.IP6Address
+
+ result = utils.RunCmd(["ip", "address", "add",
+ "%s/%d" % (master_ip, ipcls.iplen),
+ "dev", master_netdev, "label",
+ "%s:0" % master_netdev])
+ if result.failed:
+ msg = "Can't activate master IP: %s" % result.output
+ logging.error(msg)
+ err_msgs.append(msg)
+
+ # we ignore the exit code of the following cmds
+ if ipcls == netutils.IP4Address:
+ utils.RunCmd(["arping", "-q", "-U", "-c 3", "-I", master_netdev, "-s",
+ master_ip, master_ip])
+ elif ipcls == netutils.IP6Address:
+ try:
+ utils.RunCmd(["ndisc6", "-q", "-r 3", master_ip, master_netdev])
+ except errors.OpExecError:
+ # TODO: Better error reporting
+ logging.warning("Can't execute ndisc6, please install if missing")
if err_msgs:
_Fail("; ".join(err_msgs))
# need to decide in which case we fail the RPC for this
# GetMasterInfo will raise an exception if not able to return data
- master_netdev, master_ip, _ = GetMasterInfo()
+ master_netdev, master_ip, _, family = GetMasterInfo()
+
+ ipcls = netutils.IP4Address
+ if family == netutils.IP6Address.family:
+ ipcls = netutils.IP6Address
- result = utils.RunCmd(["ip", "address", "del", "%s/32" % master_ip,
+ result = utils.RunCmd(["ip", "address", "del",
+ "%s/%d" % (master_ip, ipcls.iplen),
"dev", master_netdev])
if result.failed:
logging.error("Can't remove the master IP, error: %s", result.output)
result.cmd, result.exit_code, result.output)
-def AddNode(dsa, dsapub, rsa, rsapub, sshkey, sshpub):
- """Joins this node to the cluster.
-
- This does the following:
- - updates the hostkeys of the machine (rsa and dsa)
- - adds the ssh private key to the user
- - adds the ssh public key to the users' authorized_keys file
-
- @type dsa: str
- @param dsa: the DSA private key to write
- @type dsapub: str
- @param dsapub: the DSA public key to write
- @type rsa: str
- @param rsa: the RSA private key to write
- @type rsapub: str
- @param rsapub: the RSA public key to write
- @type sshkey: str
- @param sshkey: the SSH private key to write
- @type sshpub: str
- @param sshpub: the SSH public key to write
- @rtype: boolean
- @return: the success of the operation
-
- """
- sshd_keys = [(constants.SSH_HOST_RSA_PRIV, rsa, 0600),
- (constants.SSH_HOST_RSA_PUB, rsapub, 0644),
- (constants.SSH_HOST_DSA_PRIV, dsa, 0600),
- (constants.SSH_HOST_DSA_PUB, dsapub, 0644)]
- for name, content, mode in sshd_keys:
- utils.WriteFile(name, data=content, mode=mode)
-
- try:
- priv_key, pub_key, auth_keys = ssh.GetUserFiles(constants.GANETI_RUNAS,
- mkdir=True)
- except errors.OpExecError, err:
- _Fail("Error while processing user ssh files: %s", err, exc=True)
-
- for name, content in [(priv_key, sshkey), (pub_key, sshpub)]:
- utils.WriteFile(name, data=content, mode=0600)
+def EtcHostsModify(mode, host, ip):
+ """Modify a host entry in /etc/hosts.
- utils.AddAuthorizedKey(auth_keys, sshpub)
+ @param mode: The mode to operate. Either add or remove entry
+ @param host: The host to operate on
+ @param ip: The ip associated with the entry
- result = utils.RunCmd([constants.DAEMON_UTIL, "reload-ssh-keys"])
- if result.failed:
- _Fail("Unable to reload SSH keys (command %r, exit code %s, output %r)",
- result.cmd, result.exit_code, result.output)
+ """
+ if mode == constants.ETC_HOSTS_ADD:
+ if not ip:
+ RPCFail("Mode 'add' needs 'ip' parameter, but parameter not"
+ " present")
+ utils.AddHostToEtcHosts(host, ip)
+ elif mode == constants.ETC_HOSTS_REMOVE:
+ if ip:
+ RPCFail("Mode 'remove' does not allow 'ip' parameter, but"
+ " parameter is present")
+ utils.RemoveHostFromEtcHosts(host)
+ else:
+ RPCFail("Mode not supported")
def LeaveCluster(modify_ssh_setup):
"""
outputarray = {}
- vginfo = _GetVGInfo(vgname)
- outputarray['vg_size'] = vginfo['vg_size']
- outputarray['vg_free'] = vginfo['vg_free']
+
+ vginfo = bdev.LogicalVolume.GetVGInfo([vgname])
+ vg_free = vg_size = None
+ if vginfo:
+ vg_free = int(round(vginfo[0][0], 0))
+ vg_size = int(round(vginfo[0][1], 0))
+
+ outputarray['vg_size'] = vg_size
+ outputarray['vg_free'] = vg_free
hyper = hypervisor.GetHypervisor(hypervisor_type)
hyp_info = hyper.GetNodeInfo()
"""
result = {}
- my_name = utils.HostInfo().name
- port = utils.GetDaemonPort(constants.NODED)
+ my_name = netutils.Hostname.GetSysName()
+ port = netutils.GetDaemonPort(constants.NODED)
+ vm_capable = my_name not in what.get(constants.NV_VMNODES, [])
- if constants.NV_HYPERVISOR in what:
+ if constants.NV_HYPERVISOR in what and vm_capable:
result[constants.NV_HYPERVISOR] = tmp = {}
for hv_name in what[constants.NV_HYPERVISOR]:
try:
else:
for name, pip, sip in what[constants.NV_NODENETTEST]:
fail = []
- if not utils.TcpPing(pip, port, source=my_pip):
+ if not netutils.TcpPing(pip, port, source=my_pip):
fail.append("primary")
if sip != pip:
- if not utils.TcpPing(sip, port, source=my_sip):
+ if not netutils.TcpPing(sip, port, source=my_sip):
fail.append("secondary")
if fail:
tmp[name] = ("failure using the %s interface(s)" %
# rest of the function)
master_name, master_ip = what[constants.NV_MASTERIP]
if master_name == my_name:
- source = constants.LOCALHOST_IP_ADDRESS
+ source = constants.IP4_ADDRESS_LOCALHOST
else:
source = None
- result[constants.NV_MASTERIP] = utils.TcpPing(master_ip, port,
+ result[constants.NV_MASTERIP] = netutils.TcpPing(master_ip, port,
source=source)
- if constants.NV_LVLIST in what:
+ if constants.NV_LVLIST in what and vm_capable:
try:
val = GetVolumeList(what[constants.NV_LVLIST])
except RPCFail, err:
val = str(err)
result[constants.NV_LVLIST] = val
- if constants.NV_INSTANCELIST in what:
+ if constants.NV_INSTANCELIST in what and vm_capable:
# GetInstanceList can fail
try:
val = GetInstanceList(what[constants.NV_INSTANCELIST])
val = str(err)
result[constants.NV_INSTANCELIST] = val
- if constants.NV_VGLIST in what:
+ if constants.NV_VGLIST in what and vm_capable:
result[constants.NV_VGLIST] = utils.ListVolumeGroups()
- if constants.NV_PVLIST in what:
+ if constants.NV_PVLIST in what and vm_capable:
result[constants.NV_PVLIST] = \
bdev.LogicalVolume.GetPVInfo(what[constants.NV_PVLIST],
filter_allocatable=False)
result[constants.NV_VERSION] = (constants.PROTOCOL_VERSION,
constants.RELEASE_VERSION)
- if constants.NV_HVINFO in what:
+ if constants.NV_HVINFO in what and vm_capable:
hyper = hypervisor.GetHypervisor(what[constants.NV_HVINFO])
result[constants.NV_HVINFO] = hyper.GetNodeInfo()
- if constants.NV_DRBDLIST in what:
+ if constants.NV_DRBDLIST in what and vm_capable:
try:
used_minors = bdev.DRBD8.GetUsedDevs().keys()
except errors.BlockDeviceError, err:
used_minors = str(err)
result[constants.NV_DRBDLIST] = used_minors
+ if constants.NV_DRBDHELPER in what and vm_capable:
+ status = True
+ try:
+ payload = bdev.BaseDRBD.GetUsermodeHelper()
+ except errors.BlockDeviceError, err:
+ logging.error("Can't get DRBD usermode helper: %s", str(err))
+ status = False
+ payload = str(err)
+ result[constants.NV_DRBDHELPER] = (status, payload)
+
if constants.NV_NODESETUP in what:
result[constants.NV_NODESETUP] = tmpr = []
if not os.path.isdir("/sys/block") or not os.path.isdir("/sys/class/net"):
if constants.NV_TIME in what:
result[constants.NV_TIME] = utils.SplitTime(time.time())
+ if constants.NV_OSLIST in what and vm_capable:
+ result[constants.NV_OSLIST] = DiagnoseOS()
+
return result
for idx in range(len(instance.disks)):
link_name = _GetBlockDevSymlinkPath(iname, idx)
if not os.path.islink(link_name):
- _Fail("Instance %s was not restarted since ganeti 1.2.5", iname)
+ logging.warning("Instance %s is missing symlink %s for disk %d",
+ iname, link_name, idx)
def GetAllInstancesInfo(hypervisor_list):
" log file:\n%s", result.fail_reason, "\n".join(lines), log=False)
-def _GetVGInfo(vg_name):
- """Get information about the volume group.
-
- @type vg_name: str
- @param vg_name: the volume group which we query
- @rtype: dict
- @return:
- A dictionary with the following keys:
- - C{vg_size} is the total size of the volume group in MiB
- - C{vg_free} is the free size of the volume group in MiB
- - C{pv_count} are the number of physical disks in that VG
-
- If an error occurs during gathering of data, we return the same dict
- with keys all set to None.
-
- """
- retdic = dict.fromkeys(["vg_size", "vg_free", "pv_count"])
-
- retval = utils.RunCmd(["vgs", "-ovg_size,vg_free,pv_count", "--noheadings",
- "--nosuffix", "--units=m", "--separator=:", vg_name])
-
- if retval.failed:
- logging.error("volume group %s not present", vg_name)
- return retdic
- valarr = retval.stdout.strip().rstrip(':').split(':')
- if len(valarr) == 3:
- try:
- retdic = {
- "vg_size": int(round(float(valarr[0]), 0)),
- "vg_free": int(round(float(valarr[1]), 0)),
- "pv_count": int(valarr[2]),
- }
- except (TypeError, ValueError), err:
- logging.exception("Fail to parse vgs output: %s", err)
- else:
- logging.error("vgs output has the wrong number of fields (expected"
- " three): %s", str(valarr))
- return retdic
-
-
def _GetBlockDevSymlinkPath(instance_name, idx):
return utils.PathJoin(constants.DISK_LINKS_DIR,
"%s:%d" % (instance_name, idx))
return device.unique_id
+def _WipeDevice(path, offset, size):
+ """This function actually wipes the device.
+
+ @param path: The path to the device to wipe
+ @param offset: The offset in MiB in the file
+ @param size: The size in MiB to write
+
+ """
+ cmd = [constants.DD_CMD, "if=/dev/zero", "seek=%d" % offset,
+ "bs=%d" % constants.WIPE_BLOCK_SIZE, "oflag=direct", "of=%s" % path,
+ "count=%d" % size]
+ result = utils.RunCmd(cmd)
+
+ if result.failed:
+ _Fail("Wipe command '%s' exited with error: %s; output: %s", result.cmd,
+ result.fail_reason, result.output)
+
+
+def BlockdevWipe(disk, offset, size):
+ """Wipes a block device.
+
+ @type disk: L{objects.Disk}
+ @param disk: the disk object we want to wipe
+ @type offset: int
+ @param offset: The offset in MiB in the file
+ @type size: int
+ @param size: The size in MiB to write
+
+ """
+ try:
+ rdev = _RecursiveFindBD(disk)
+ except errors.BlockDeviceError:
+ rdev = None
+
+ if not rdev:
+ _Fail("Cannot execute wipe for device %s: device not found", disk.iv_name)
+
+ # Do cross verify some of the parameters
+ if offset > rdev.size:
+ _Fail("Offset is bigger than device size")
+ if (offset + size) > rdev.size:
+ _Fail("The provided offset and size to wipe is bigger than device size")
+
+ _WipeDevice(rdev.dev_path, offset, size)
+
+
def BlockdevRemove(disk):
"""Remove a block device.
raw_data = _Decompress(data)
- utils.WriteFile(file_name, data=raw_data, mode=mode, uid=uid, gid=gid,
- atime=atime, mtime=mtime)
+ utils.SafeWriteFile(file_name, None,
+ data=raw_data, mode=mode, uid=uid, gid=gid,
+ atime=atime, mtime=mtime)
def WriteSsconfFiles(values):
search (if not given defaults to
L{constants.OS_SEARCH_PATH})
@rtype: list of L{objects.OS}
- @return: a list of tuples (name, path, status, diagnose, variants)
- for all (potential) OSes under all search paths, where:
+ @return: a list of tuples (name, path, status, diagnose, variants,
+ parameters, api_version) for all (potential) OSes under all
+ search paths, where:
- name is the (potential) OS name
- path is the full path to the OS
- status True/False is the validity of the OS
- diagnose is the error message for an invalid OS, otherwise empty
- variants is a list of supported OS variants, if any
+ - parameters is a list of (name, help) parameters, if any
+ - api_version is a list of support OS API versions
"""
if top_dirs is None:
if status:
diagnose = ""
variants = os_inst.supported_variants
+ parameters = os_inst.supported_parameters
+ api_versions = os_inst.api_versions
else:
diagnose = os_inst
- variants = []
- result.append((name, os_path, status, diagnose, variants))
+ variants = parameters = api_versions = []
+ result.append((name, os_path, status, diagnose, variants,
+ parameters, api_versions))
return result
if max(api_versions) >= constants.OS_API_V15:
os_files[constants.OS_VARIANTS_FILE] = ''
+ if max(api_versions) >= constants.OS_API_V20:
+ os_files[constants.OS_PARAMETERS_FILE] = ''
+ else:
+ del os_files[constants.OS_SCRIPT_VERIFY]
+
for filename in os_files:
os_files[filename] = utils.PathJoin(os_dir, filename)
return False, ("File '%s' under path '%s' is not executable" %
(filename, os_dir))
- variants = None
+ variants = []
if constants.OS_VARIANTS_FILE in os_files:
variants_file = os_files[constants.OS_VARIANTS_FILE]
try:
if not variants:
return False, ("No supported os variant found")
+ parameters = []
+ if constants.OS_PARAMETERS_FILE in os_files:
+ parameters_file = os_files[constants.OS_PARAMETERS_FILE]
+ try:
+ parameters = utils.ReadFile(parameters_file).splitlines()
+ except EnvironmentError, err:
+ return False, ("Error while reading the OS parameters file at %s: %s" %
+ (parameters_file, _ErrnoOrStr(err)))
+ parameters = [v.split(None, 1) for v in parameters]
+
os_obj = objects.OS(name=name, path=os_dir,
create_script=os_files[constants.OS_SCRIPT_CREATE],
export_script=os_files[constants.OS_SCRIPT_EXPORT],
import_script=os_files[constants.OS_SCRIPT_IMPORT],
rename_script=os_files[constants.OS_SCRIPT_RENAME],
+ verify_script=os_files.get(constants.OS_SCRIPT_VERIFY,
+ None),
supported_variants=variants,
+ supported_parameters=parameters,
api_versions=api_versions)
return True, os_obj
@raise RPCFail: if we don't find a valid OS
"""
- name_only = name.split("+", 1)[0]
+ name_only = objects.OS.GetName(name)
status, payload = _TryOSFromDisk(name_only, base_dir)
if not status:
return payload
-def OSEnvironment(instance, inst_os, debug=0):
- """Calculate the environment for an os script.
+def OSCoreEnv(os_name, inst_os, os_params, debug=0):
+ """Calculate the basic environment for an os script.
- @type instance: L{objects.Instance}
- @param instance: target instance for the os script run
+ @type os_name: str
+ @param os_name: full operating system name (including variant)
@type inst_os: L{objects.OS}
@param inst_os: operating system for which the environment is being built
+ @type os_params: dict
+ @param os_params: the OS parameters
@type debug: integer
@param debug: debug level (0 or 1, for OS Api 10)
@rtype: dict
api_version = \
max(constants.OS_API_VERSIONS.intersection(inst_os.api_versions))
result['OS_API_VERSION'] = '%d' % api_version
- result['INSTANCE_NAME'] = instance.name
- result['INSTANCE_OS'] = instance.os
- result['HYPERVISOR'] = instance.hypervisor
- result['DISK_COUNT'] = '%d' % len(instance.disks)
- result['NIC_COUNT'] = '%d' % len(instance.nics)
+ result['OS_NAME'] = inst_os.name
result['DEBUG_LEVEL'] = '%d' % debug
+
+ # OS variants
if api_version >= constants.OS_API_V15:
- try:
- variant = instance.os.split('+', 1)[1]
- except IndexError:
+ variant = objects.OS.GetVariant(os_name)
+ if not variant:
variant = inst_os.supported_variants[0]
result['OS_VARIANT'] = variant
+
+ # OS params
+ for pname, pvalue in os_params.items():
+ result['OSP_%s' % pname.upper()] = pvalue
+
+ return result
+
+
+def OSEnvironment(instance, inst_os, debug=0):
+ """Calculate the environment for an os script.
+
+ @type instance: L{objects.Instance}
+ @param instance: target instance for the os script run
+ @type inst_os: L{objects.OS}
+ @param inst_os: operating system for which the environment is being built
+ @type debug: integer
+ @param debug: debug level (0 or 1, for OS Api 10)
+ @rtype: dict
+ @return: dict of environment variables
+ @raise errors.BlockDeviceError: if the block device
+ cannot be found
+
+ """
+ result = OSCoreEnv(instance.os, inst_os, instance.osparams, debug=debug)
+
+ for attr in ["name", "os", "uuid", "ctime", "mtime"]:
+ result["INSTANCE_%s" % attr.upper()] = str(getattr(instance, attr))
+
+ result['HYPERVISOR'] = instance.hypervisor
+ result['DISK_COUNT'] = '%d' % len(instance.disks)
+ result['NIC_COUNT'] = '%d' % len(instance.nics)
+
+ # Disks
for idx, disk in enumerate(instance.disks):
real_disk = _OpenRealBD(disk)
result['DISK_%d_PATH' % idx] = real_disk.dev_path
elif disk.dev_type == constants.LD_FILE:
result['DISK_%d_BACKEND_TYPE' % idx] = \
'file:%s' % disk.physical_id[0]
+
+ # NICs
for idx, nic in enumerate(instance.nics):
result['NIC_%d_MAC' % idx] = nic.mac
if nic.ip:
result['NIC_%d_FRONTEND_TYPE' % idx] = \
instance.hvparams[constants.HV_NIC_TYPE]
+ # HV/BE params
for source, kind in [(instance.beparams, "BE"), (instance.hvparams, "HV")]:
for key, value in source.items():
result["INSTANCE_%s_%s" % (kind, key)] = str(value)
for name, value in instance.beparams.items():
config.set(constants.INISECT_BEP, name, str(value))
+ config.add_section(constants.INISECT_OSP)
+ for name, value in instance.osparams.items():
+ config.set(constants.INISECT_OSP, name, str(value))
+
utils.WriteFile(utils.PathJoin(destdir, constants.EXPORT_CONF_FILE),
data=config.Dumps())
shutil.rmtree(finaldestdir, ignore_errors=True)
"""
if os.path.isdir(constants.EXPORT_DIR):
- return utils.ListVisibleFiles(constants.EXPORT_DIR)
+ return sorted(utils.ListVisibleFiles(constants.EXPORT_DIR))
else:
_Fail("No exports directory")
"""
_EnsureJobQueueFile(file_name)
+ getents = runtime.GetEnts()
# Write and replace the file atomically
- utils.WriteFile(file_name, data=_Decompress(content))
+ utils.WriteFile(file_name, data=_Decompress(content), uid=getents.masterd_uid,
+ gid=getents.masterd_gid)
def JobQueueRename(old, new):
_Fail(str(err), log=False)
+def _CheckOSPList(os_obj, parameters):
+ """Check whether a list of parameters is supported by the OS.
+
+ @type os_obj: L{objects.OS}
+ @param os_obj: OS object to check
+ @type parameters: list
+ @param parameters: the list of parameters to check
+
+ """
+ supported = [v[0] for v in os_obj.supported_parameters]
+ delta = frozenset(parameters).difference(supported)
+ if delta:
+ _Fail("The following parameters are not supported"
+ " by the OS %s: %s" % (os_obj.name, utils.CommaJoin(delta)))
+
+
+def ValidateOS(required, osname, checks, osparams):
+ """Validate the given OS' parameters.
+
+ @type required: boolean
+ @param required: whether absence of the OS should translate into
+ failure or not
+ @type osname: string
+ @param osname: the OS to be validated
+ @type checks: list
+ @param checks: list of the checks to run (currently only 'parameters')
+ @type osparams: dict
+ @param osparams: dictionary with OS parameters
+ @rtype: boolean
+ @return: True if the validation passed, or False if the OS was not
+ found and L{required} was false
+
+ """
+ if not constants.OS_VALIDATE_CALLS.issuperset(checks):
+ _Fail("Unknown checks required for OS %s: %s", osname,
+ set(checks).difference(constants.OS_VALIDATE_CALLS))
+
+ name_only = objects.OS.GetName(osname)
+ status, tbv = _TryOSFromDisk(name_only, None)
+
+ if not status:
+ if required:
+ _Fail(tbv)
+ else:
+ return False
+
+ if max(tbv.api_versions) < constants.OS_API_V20:
+ return True
+
+ if constants.OS_VALIDATE_PARAMETERS in checks:
+ _CheckOSPList(tbv, osparams.keys())
+
+ validate_env = OSCoreEnv(osname, tbv, osparams)
+ result = utils.RunCmd([tbv.verify_script] + checks, env=validate_env,
+ cwd=tbv.path)
+ if result.failed:
+ logging.error("os validate command '%s' returned error: %s output: %s",
+ result.cmd, result.fail_reason, result.output)
+ _Fail("OS validation script failed (%s), output: %s",
+ result.fail_reason, result.output, log=False)
+
+ return True
+
+
def DemoteFromMC():
"""Demotes the current node from master candidate role.
"""
(key_pem, cert_pem) = \
- utils.GenerateSelfSignedX509Cert(utils.HostInfo.SysName(),
+ utils.GenerateSelfSignedX509Cert(netutils.Hostname.GetSysName(),
min(validity, _MAX_SSL_CERT_VALIDITY))
cert_dir = tempfile.mkdtemp(dir=cryptodir,
if opts.compress:
cmd.append("--compress=%s" % opts.compress)
+ if opts.magic:
+ cmd.append("--magic=%s" % opts.magic)
+
if exp_size is not None:
cmd.append("--expected-size=%s" % exp_size)
if pid:
logging.info("Import/export %s is running with PID %s, sending SIGTERM",
name, pid)
- os.kill(pid, signal.SIGTERM)
+ utils.IgnoreProcessNotFound(os.kill, pid, signal.SIGTERM)
def CleanupImportExport(name):
"""
# set the correct physical ID
- my_name = utils.HostInfo().name
+ my_name = netutils.Hostname.GetSysName()
for cf in disks:
cf.SetPhysicalID(my_name, nodes_ip)
return (alldone, min_resync)
+def GetDrbdUsermodeHelper():
+ """Returns DRBD usermode helper currently configured.
+
+ """
+ try:
+ return bdev.BaseDRBD.GetUsermodeHelper()
+ except errors.BlockDeviceError, err:
+ _Fail(str(err))
+
+
def PowercycleNode(hypervisor_type):
"""Hard-powercycle the node.