#******************************************************************************* # OpenNebula Configuration file #******************************************************************************* #******************************************************************************* # Daemon configuration attributes #------------------------------------------------------------------------------- # MANAGER_TIMER: Time in seconds the core uses to evaluate periodical functions. # MONITORING_INTERVAL cannot have a smaller value than MANAGER_TIMER. # # MONITORING_INTERVAL: Time in seconds between host and VM monitorization. # # MONITORING_THREADS: Max. number of threads used to process monitor messages # # HOST_PER_INTERVAL: Number of hosts monitored in each interval. # HOST_MONITORING_EXPIRATION_TIME: Time, in seconds, to expire monitoring # information. Use 0 to disable HOST monitoring recording. # # VM_INDIVIDUAL_MONITORING: VM monitoring information is obtained along with the # host information. For some custom monitor drivers you may need activate the # individual VM monitoring process. # VM_PER_INTERVAL: Number of VMs monitored in each interval, if the individual # VM monitoring is set to yes. # VM_MONITORING_EXPIRATION_TIME: Time, in seconds, to expire monitoring # information. Use 0 to disable VM monitoring recording. # # SCRIPTS_REMOTE_DIR: Remote path to store the monitoring and VM management # scripts. # # PORT: Port where oned will listen for xmlrpc calls. # # DB: Configuration attributes for the database backend # backend : can be sqlite or mysql (default is sqlite) # server : (mysql) host name or an IP address for the MySQL server # port : (mysql) port for the connection to the server. # If set to 0, the default port is used. # user : (mysql) user's MySQL login ID # passwd : (mysql) the password for user # db_name : (mysql) the database name # # VNC_BASE_PORT: VNC ports for VMs can be automatically set to VNC_BASE_PORT + # VMID # # LOG: Configuration for the logging system # system: defines the logging system: # file to log in the oned.log file # syslog to use the syslog facilities # debug_level: 0 = ERROR, 1 = WARNING, 2 = INFO, 3 = DEBUG # # VM_SUBMIT_ON_HOLD: Forces VMs to be created on hold state instead of pending. # Values: YES or NO. #******************************************************************************* LOG = [ system = "file", debug_level = 3 ] #MANAGER_TIMER = 30 MONITORING_INTERVAL = 60 MONITORING_THREADS = 50 #HOST_PER_INTERVAL = 15 #HOST_MONITORING_EXPIRATION_TIME = 43200 #VM_INDIVIDUAL_MONITORING = "no" #VM_PER_INTERVAL = 5 #VM_MONITORING_EXPIRATION_TIME = 14400 SCRIPTS_REMOTE_DIR=/var/tmp/one PORT = 2633 DB = [ backend = "sqlite" ] # Sample configuration for MySQL # DB = [ backend = "mysql", # server = "localhost", # port = 0, # user = "oneadmin", # passwd = "oneadmin", # db_name = "opennebula" ] VNC_BASE_PORT = 5900 #VM_SUBMIT_ON_HOLD = "NO" #******************************************************************************* # Federation configuration attributes #------------------------------------------------------------------------------- # Control the federation capabilities of oned. Operation in a federated setup # requires a special DB configuration. # # FEDERATION: Federation attributes # MODE: Operation mode of this oned. # STANDALONE no federated.This is the default operational mode # MASTER this oned is the master zone of the federation # SLAVE this oned is a slave zone # ZONE_ID: The zone ID as returned by onezone command # MASTER_ONED: The xml-rpc endpoint of the master oned, e.g. # http://master.one.org:2633/RPC2 #******************************************************************************* FEDERATION = [ MODE = "STANDALONE", ZONE_ID = 0, MASTER_ONED = "" ] #******************************************************************************* # XML-RPC server configuration #------------------------------------------------------------------------------- # These are configuration parameters for oned's xmlrpc-c server # # MAX_CONN: Maximum number of simultaneous TCP connections the server # will maintain # # MAX_CONN_BACKLOG: Maximum number of TCP connections the operating system # will accept on the server's behalf without the server accepting them from # the operating system # # KEEPALIVE_TIMEOUT: Maximum time in seconds that the server allows a # connection to be open between RPCs # # KEEPALIVE_MAX_CONN: Maximum number of RPCs that the server will execute on # a single connection # # TIMEOUT: Maximum time in seconds the server will wait for the client to # do anything while processing an RPC # # RPC_LOG: Create a separated log file for xml-rpc requests, in # "/var/log/one/one_xmlrpc.log". # # MESSAGE_SIZE: Buffer size in bytes for XML-RPC responses. Only relevant for # slave zones. #******************************************************************************* #MAX_CONN = 15 #MAX_CONN_BACKLOG = 15 #KEEPALIVE_TIMEOUT = 15 #KEEPALIVE_MAX_CONN = 30 #TIMEOUT = 15 #RPC_LOG = NO #MESSAGE_SIZE = 1073741824 #******************************************************************************* # Physical Networks configuration #******************************************************************************* # NETWORK_SIZE: Here you can define the default size for the virtual networks # # MAC_PREFIX: Default MAC prefix to be used to create the auto-generated MAC # addresses is defined here (this can be overrided by the Virtual Network # template) #******************************************************************************* NETWORK_SIZE = 254 MAC_PREFIX = "02:00" #******************************************************************************* # DataStore Configuration #******************************************************************************* # DATASTORE_LOCATION: *Default* Path for Datastores in the hosts. It IS the # same for all the hosts in the cluster. DATASTORE_LOCATION IS ONLY FOR THE # HOSTS AND *NOT* THE FRONT-END. It defaults to /var/lib/one/datastores (or # $ONE_LOCATION/var/datastores in self-contained mode) # # You can define a different DATASTORE_LOCATION in each cluster by updating # its properties with onecluster update. # # DATASTORE_BASE_PATH: This is the base path for the SOURCE attribute of # the images registered in a Datastore. This is a default value, that can be # changed when the datastore is created. # # DATASTORE_CAPACITY_CHECK: Checks that there is enough capacity before # creating a new imag. Defaults to Yes # # DEFAULT_IMAGE_TYPE: This can take values # OS Image file holding an operating system # CDROM Image file holding a CDROM # DATABLOCK Image file holding a datablock, # always created as an empty block # # DEFAULT_DEVICE_PREFIX: This can be set to # hd IDE prefix # sd SCSI # xvd XEN Virtual Disk # vd KVM virtual disk # # DEFAULT_CDROM_DEVICE_PREFIX: Same as above but for CDROM devices. #******************************************************************************* #DATASTORE_LOCATION = /var/lib/one/datastores #DATASTORE_BASE_PATH = /var/lib/one/datastores DATASTORE_CAPACITY_CHECK = "yes" DEFAULT_IMAGE_TYPE = "OS" DEFAULT_DEVICE_PREFIX = "hd" DEFAULT_CDROM_DEVICE_PREFIX = "hd" #******************************************************************************* # Information Driver Configuration #******************************************************************************* # You can add more information managers with different configurations but make # sure it has different names. # # name : name for this information manager # # executable: path of the information driver executable, can be an # absolute path or relative to $ONE_LOCATION/lib/mads (or # /usr/lib/one/mads/ if OpenNebula was installed in /) # # arguments : for the driver executable, usually a probe configuration file, # can be an absolute path or relative to $ONE_LOCATION/etc (or # /etc/one/ if OpenNebula was installed in /) #******************************************************************************* #------------------------------------------------------------------------------- # Information Collector for KVM and Xen IM's. #------------------------------------------------------------------------------- # This driver CANNOT BE ASSIGNED TO A HOST, and needs to be used with KVM or # Xen drivers # -h prints this help. # -a Address to bind the collectd sockect (defults 0.0.0.0) # -p UDP port to listen for monitor information (default 4124) # -f Interval in seconds to flush collected information (default 5) # -t Number of threads for the server (defult 50) # -i Time in seconds of the monitorization push cycle. This parameter must # be smaller than MONITORING_INTERVAL, otherwise push monitorization will # not be effective. #------------------------------------------------------------------------------- IM_MAD = [ name = "collectd", executable = "collectd", arguments = "-p 4124 -f 5 -t 50 -i 20" ] #------------------------------------------------------------------------------- #------------------------------------------------------------------------------- # KVM UDP-push Information Driver Manager Configuration # -r number of retries when monitoring a host # -t number of threads, i.e. number of hosts monitored at the same time #------------------------------------------------------------------------------- IM_MAD = [ name = "kvm", executable = "one_im_ssh", arguments = "-r 3 -t 15 kvm" ] #------------------------------------------------------------------------------- #------------------------------------------------------------------------------- # KVM SSH-pull Information Driver Manager Configuration # -r number of retries when monitoring a host # -t number of threads, i.e. number of hosts monitored at the same time #------------------------------------------------------------------------------- # IM_MAD = [ # name = "kvm", # executable = "one_im_ssh", # arguments = "-r 3 -t 15 kvm-probes" ] #------------------------------------------------------------------------------- #------------------------------------------------------------------------------- # XEN UDP-push Information Driver Manager Configuration # -r number of retries when monitoring a host # -t number of threads, i.e. number of hosts monitored at the same time #------------------------------------------------------------------------------- # Driver for Xen 3.x #IM_MAD = [ # name = "xen", # executable = "one_im_ssh", # arguments = "-r 3 -t 15 xen3" ] # Driver for Xen 4.x #IM_MAD = [ # name = "xen", # executable = "one_im_ssh", # arguments = "-r 3 -t 15 xen4" ] #------------------------------------------------------------------------------- # XEN SSH-pull Information Driver Manager Configuration # -r number of retries when monitoring a host # -t number of threads, i.e. number of hosts monitored at the same time #------------------------------------------------------------------------------- # Driver for Xen 3.x #IM_MAD = [ # name = "xen", # executable = "one_im_ssh", # arguments = "-r 0 -t 15 xen3-probes" ] # Driver for Xen 4.x #IM_MAD = [ # name = "xen", # executable = "one_im_ssh", # arguments = "-r 0 -t 15 xen4-probes" ] #------------------------------------------------------------------------------- #------------------------------------------------------------------------------- # VMware Information Driver Manager Configuration # -r number of retries when monitoring a host # -t number of threads, i.e. number of hosts monitored at the same time #------------------------------------------------------------------------------- #IM_MAD = [ # name = "vmware", # executable = "one_im_sh", # arguments = "-c -t 15 -r 0 vmware" ] #------------------------------------------------------------------------------- #------------------------------------------------------------------------------- # EC2 Information Driver Manager Configuration #------------------------------------------------------------------------------- #IM_MAD = [ # name = "ec2", # executable = "one_im_sh", # arguments = "-c -t 1 -r 0 ec2" ] #------------------------------------------------------------------------------- #------------------------------------------------------------------------------- # Dummy Information Driver Manager Configuration #------------------------------------------------------------------------------- #IM_MAD = [ name="dummy", executable="one_im_dummy"] #------------------------------------------------------------------------------- #******************************************************************************* # Virtualization Driver Configuration #******************************************************************************* # You can add more virtualization managers with different configurations but # make sure it has different names. # # name : name of the virtual machine manager driver # # executable: path of the virtualization driver executable, can be an # absolute path or relative to $ONE_LOCATION/lib/mads (or # /usr/lib/one/mads/ if OpenNebula was installed in /) # # arguments : for the driver executable # # default : default values and configuration parameters for the driver, can # be an absolute path or relative to $ONE_LOCATION/etc (or # /etc/one/ if OpenNebula was installed in /) # # type : driver type, supported drivers: xen, kvm, xml #******************************************************************************* #------------------------------------------------------------------------------- # KVM Virtualization Driver Manager Configuration # -r number of retries when monitoring a host # -t number of threads, i.e. number of hosts monitored at the same time # -l actions executed locally, command can be # overridden for each action. # Valid actions: deploy, shutdown, cancel, save, restore, migrate, poll # An example: "-l migrate=migrate_local,save" # # Note: You can use type = "qemu" to use qemu emulated guests, e.g. if your # CPU does not have virtualization extensions or use nested Qemu-KVM hosts #------------------------------------------------------------------------------- VM_MAD = [ name = "kvm", executable = "one_vmm_exec", arguments = "-t 15 -r 0 kvm", default = "vmm_exec/vmm_exec_kvm.conf", type = "kvm" ] #------------------------------------------------------------------------------- #------------------------------------------------------------------------------- # XEN Virtualization Driver Manager Configuration # -r number of retries when monitoring a host # -t number of threads, i.e. number of hosts monitored at the same time # -l actions executed locally, command can be # overridden for each action. # Valid actions: deploy, shutdown, cancel, save, restore, migrate, poll # An example: "-l migrate,save" #------------------------------------------------------------------------------- # Driver for Xen 3.x #VM_MAD = [ # name = "xen", # executable = "one_vmm_exec", # arguments = "-t 15 -r 0 xen3", # default = "vmm_exec/vmm_exec_xen3.conf", # type = "xen" ] # Driver for Xen 4.x #VM_MAD = [ # name = "xen", # executable = "one_vmm_exec", # arguments = "-t 15 -r 0 xen4", # default = "vmm_exec/vmm_exec_xen4.conf", # type = "xen" ] #------------------------------------------------------------------------------- #------------------------------------------------------------------------------- # VMware Virtualization Driver Manager Configuration # -r number of retries when monitoring a host # -t number of threads, i.e. number of hosts monitored at the same time #------------------------------------------------------------------------------- #VM_MAD = [ # name = "vmware", # executable = "one_vmm_sh", # arguments = "-t 15 -r 0 vmware -s sh", # default = "vmm_exec/vmm_exec_vmware.conf", # type = "vmware" ] #------------------------------------------------------------------------------- #------------------------------------------------------------------------------- # EC2 Virtualization Driver Manager Configuration # -r number of retries when monitoring a host # -t number of threads, i.e. number of actions performed at the same time #------------------------------------------------------------------------------- #VM_MAD = [ # name = "ec2", # executable = "one_vmm_sh", # arguments = "-t 15 -r 0 ec2", # type = "xml" ] #------------------------------------------------------------------------------- #------------------------------------------------------------------------------- # Dummy Virtualization Driver Configuration #------------------------------------------------------------------------------- #VM_MAD = [ name="dummy", executable="one_vmm_dummy", type="xml" ] #------------------------------------------------------------------------------- #******************************************************************************* # Transfer Manager Driver Configuration #******************************************************************************* # You can add more transfer managers with different configurations but make # sure it has different names. # name : name for this transfer driver # # executable: path of the transfer driver executable, can be an # absolute path or relative to $ONE_LOCATION/lib/mads (or # /usr/lib/one/mads/ if OpenNebula was installed in /) # arguments : # -t: number of threads, i.e. number of transfers made at the same time # -d: list of transfer drivers separated by commas, if not defined all the # drivers available will be enabled #******************************************************************************* TM_MAD = [ executable = "one_tm", arguments = "-t 15 -d dummy,lvm,shared,fs_lvm,qcow2,ssh,vmfs,ceph" ] #******************************************************************************* # Datastore Driver Configuration #******************************************************************************* # Drivers to manage the datastores, specialized for the storage backend # executable: path of the transfer driver executable, can be an # absolute path or relative to $ONE_LOCATION/lib/mads (or # /usr/lib/one/mads/ if OpenNebula was installed in /) # # arguments : for the driver executable # -t number of threads, i.e. number of repo operations at the same time # -d datastore mads separated by commas #******************************************************************************* DATASTORE_MAD = [ executable = "one_datastore", arguments = "-t 15 -d dummy,fs,vmfs,lvm,ceph" ] #******************************************************************************* # Hook Manager Configuration #******************************************************************************* # The Driver (HM_MAD) # ----------------------------------------------- # # Used to execute the Hooks: # executable: path of the hook driver executable, can be an # absolute path or relative to $ONE_LOCATION/lib/mads (or # /usr/lib/one/mads/ if OpenNebula was installed in /) # # arguments : for the driver executable, can be an absolute path or relative # to $ONE_LOCATION/etc (or /etc/one/ if OpenNebula was installed # in /) # # Virtual Machine Hooks (VM_HOOK) # ------------------------------- # # Defined by: # name : for the hook, useful to track the hook (OPTIONAL) # on : when the hook should be executed, # - CREATE, when the VM is created (onevm create) # - PROLOG, when the VM is in the prolog state # - RUNNING, after the VM is successfully booted # - UNKNOWN, when the VM is in the unknown state # - SHUTDOWN, after the VM is shutdown # - STOP, after the VM is stopped (including VM image transfers) # - DONE, after the VM is deleted or shutdown # - FAILED, when the VM enters the failed state # - CUSTOM, user defined specific STATE and LCM_STATE combination # of states to trigger the hook. # command : path is relative to $ONE_LOCATION/var/remotes/hook # (self-contained) or to /var/lib/one/remotes/hook (system-wide). # That directory will be copied on the hosts under # SCRIPTS_REMOTE_DIR. It can be an absolute path that must exist # on the target host # arguments : for the hook. You can access to VM information with $ # - $ID, the ID of the virtual machine # - $TEMPLATE, the VM template in xml and base64 encoded # - $PREV_STATE, the previous STATE of the Virtual Machine # - $PREV_LCM_STATE, the previous LCM STATE of the Virtual Machine # remote : values, # - YES, The hook is executed in the host where the VM was # allocated # - NO, The hook is executed in the OpenNebula server (default) # # Example Virtual Machine Hook # ---------------------------- # # VM_HOOK = [ # name = "advanced_hook", # on = "CUSTOM", # state = "ACTIVE", # lcm_state = "BOOT_UNKNOWN", # command = "log.rb", # arguments = "$ID $PREV_STATE $PREV_LCM_STATE" ] # # Host Hooks (HOST_HOOK) # ------------------------------- # # Defined by: # name : for the hook, useful to track the hook (OPTIONAL) # on : when the hook should be executed, # - CREATE, when the Host is created (onehost create) # - ERROR, when the Host enters the error state # - DISABLE, when the Host is disabled # command : path is relative to $ONE_LOCATION/var/remotes/hook # (self-contained) or to /var/lib/one/remotes/hook (system-wide). # That directory will be copied on the hosts under # SCRIPTS_REMOTE_DIR. It can be an absolute path that must exist # on the target host. # arguments : for the hook. You can use the following Host information: # - $ID, the ID of the host # - $TEMPLATE, the Host template in xml and base64 encoded # remote : values, # - YES, The hook is executed in the host # - NO, The hook is executed in the OpenNebula server (default) # # Virtual Network (VNET_HOOK) # User (USER_HOOK) # Group (GROUP_HOOK) # Image (IMAGE_HOOK) # ------------------------------- # # These hooks are executed when one of the referring entities are created or # removed. Each hook is defined by: # name : for the hook, useful to track the hook (OPTIONAL) # on : when the hook should be executed, # - CREATE, when the vnet is created # - REMOVE, when the vnet is removed # command : path is relative to $ONE_LOCATION/var/remotes/hook # (self-contained) or to /var/lib/one/remotes/hook (system-wide). # That directory will be copied on the hosts under # SCRIPTS_REMOTE_DIR. It can be an absolute path that must exist # on the target host. # arguments : for the hook. You can use the following Host information: # - $ID, the ID of the host # - $TEMPLATE, the vnet template in xml and base64 encoded #------------------------------------------------------------------------------- VM_HOOK = [ name = "open_ports", on = "RUNNING", command = "eole/graphicsfw", arguments = "open $TEMPLATE", remote = "YES" ] VM_HOOK = [ name = "close_ports", on = "DONE", command = "eole/graphicsfw", arguments = "close $TEMPLATE", remote = "YES" ] VM_HOOK = [ name = "close_ports", on = "STOP", command = "eole/graphicsfw", arguments = "close $TEMPLATE", remote = "YES" ] VM_HOOK = [ name = "close_ports", on = "SHUTDOWN", command = "eole/graphicsfw", arguments = "close $TEMPLATE", remote = "YES" ] HM_MAD = [ executable = "one_hm" ] #******************************************************************************* # Fault Tolerance Hooks #******************************************************************************* # This hook is used to perform recovery actions when a host fails. # Script to implement host failure tolerance # It can be set to # -r recreate VMs running in the host # -d delete VMs running in the host # Additional flags # -f force resubmission of suspended VMs # -p avoid resubmission if host comes # back after n monitoring cycles #******************************************************************************* # #HOST_HOOK = [ # name = "error", # on = "ERROR", # command = "ft/host_error.rb", # arguments = "$ID -r", # remote = "no" ] #------------------------------------------------------------------------------- # These two hooks can be used to automatically delete or resubmit VMs that reach # the "failed" state. This way, the administrator doesn't have to interact # manually to release its resources or retry the deployment. # # # Only one of them should be uncommented. #------------------------------------------------------------------------------- # #VM_HOOK = [ # name = "on_failure_delete", # on = "FAILED", # command = "/usr/bin/env onevm delete", # arguments = "$ID" ] # #VM_HOOK = [ # name = "on_failure_recreate", # on = "FAILED", # command = "/usr/bin/env onevm delete --recreate", # arguments = "$ID" ] #------------------------------------------------------------------------------- #******************************************************************************* # Auth Manager Configuration #******************************************************************************* # AUTH_MAD: The Driver that will be used to authenticate (authn) and # authorize (authz) OpenNebula requests. If defined OpenNebula will use the # built-in auth policies. # # executable: path of the auth driver executable, can be an # absolute path or relative to $ONE_LOCATION/lib/mads (or # /usr/lib/one/mads/ if OpenNebula was installed in /) # # authn : list of authentication modules separated by commas, if not # defined all the modules available will be enabled # authz : list of authentication modules separated by commas # # SESSION_EXPIRATION_TIME: Time in seconds to keep an authenticated token as # valid. During this time, the driver is not used. Use 0 to disable session # caching # # ENABLE_OTHER_PERMISSIONS: Whether or not users can set the permissions for # 'other', so publishing or sharing resources with others. Users in the oneadmin # group will still be able to change these permissions. Values: YES or NO. # # DEFAULT_UMASK: Similar to Unix umask, sets the default resources permissions. # Its format must be 3 octal digits. For example a umask of 137 will set # the new object's permissions to 640 "um- u-- ---" #******************************************************************************* AUTH_MAD = [ executable = "one_auth_mad", authn = "server_cipher,default,%%sunstone_auth_modes" ] SESSION_EXPIRATION_TIME = 900 #ENABLE_OTHER_PERMISSIONS = "YES" DEFAULT_UMASK = 177 #******************************************************************************* # OneGate # ONEGATE_ENDPOINT: The URL for the onegate server (the Gate to OpenNebula for # VMs). The onegate server is started using a separate command. The endpoint # MUST be consistent with the values in onegate-server.conf #******************************************************************************* #ONEGATE_ENDPOINT = "http://frontend:5030" #******************************************************************************* # Restricted Attributes Configuration #******************************************************************************* # The following attributes are restricted to users outside the oneadmin group #******************************************************************************* VM_RESTRICTED_ATTR = "CONTEXT/FILES" VM_RESTRICTED_ATTR = "NIC/MAC" VM_RESTRICTED_ATTR = "NIC/VLAN_ID" VM_RESTRICTED_ATTR = "NIC/BRIDGE" #VM_RESTRICTED_ATTR = "RANK" #VM_RESTRICTED_ATTR = "SCHED_RANK" #VM_RESTRICTED_ATTR = "REQUIREMENTS" #VM_RESTRICTED_ATTR = "SCHED_REQUIREMENTS" IMAGE_RESTRICTED_ATTR = "SOURCE" #******************************************************************************* # Inherited Attributes Configuration #******************************************************************************* # The following attributes will be copied from the resource template to the # instantiated VMs. More than one attribute can be defined. # # INHERIT_IMAGE_ATTR: Attribute to be copied from the Image template # to each VM/DISK. # # INHERIT_DATASTORE_ATTR: Attribute to be copied from the Datastore template # to each VM/DISK. # # INHERIT_VNET_ATTR: Attribute to be copied from the Network template # to each VM/NIC. #******************************************************************************* #INHERIT_IMAGE_ATTR = "EXAMPLE" #INHERIT_IMAGE_ATTR = "SECOND_EXAMPLE" #INHERIT_DATASTORE_ATTR = "COLOR" #INHERIT_VNET_ATTR = "BANDWIDTH_THROTTLING" INHERIT_DATASTORE_ATTR = "CEPH_HOST" INHERIT_DATASTORE_ATTR = "CEPH_SECRET" INHERIT_DATASTORE_ATTR = "CEPH_USER" INHERIT_DATASTORE_ATTR = "RBD_FORMAT" INHERIT_DATASTORE_ATTR = "GLUSTER_HOST" INHERIT_DATASTORE_ATTR = "GLUSTER_VOLUME" INHERIT_VNET_ATTR = "VLAN_TAGGED_ID" #******************************************************************************* # Transfer Manager Driver Behavior Configuration #******************************************************************************* # The configuration for each driver is defined in TM_MAD_CONF. These # values are used when creating a new datastore and should not be modified # since they define the datastore behavior. # name : name of the transfer driver, listed in the -d option of the # TM_MAD section # ln_target : determines how the persistent images will be cloned when # a new VM is instantiated. # NONE: The image will be linked and no more storage capacity will be used # SELF: The image will be cloned in the Images datastore # SYSTEM: The image will be cloned in the System datastore # clone_target : determines how the non persistent images will be # cloned when a new VM is instantiated. # NONE: The image will be linked and no more storage capacity will be used # SELF: The image will be cloned in the Images datastore # SYSTEM: The image will be cloned in the System datastore # shared : determines if the storage holding the system datastore is shared # among the different hosts or not. Valid values: "yes" or "no" #******************************************************************************* TM_MAD_CONF = [ name = "dummy", ln_target = "NONE", clone_target = "SYSTEM", shared = "yes" ] TM_MAD_CONF = [ name = "lvm", ln_target = "NONE", clone_target = "SELF", shared = "yes" ] TM_MAD_CONF = [ name = "shared", ln_target = "NONE", clone_target = "SYSTEM", shared = "yes" ] TM_MAD_CONF = [ name = "fs_lvm", ln_target = "SYSTEM", clone_target = "SYSTEM", shared="yes" ] TM_MAD_CONF = [ name = "qcow2", ln_target = "NONE", clone_target = "SYSTEM", shared = "yes" ] TM_MAD_CONF = [ name = "ssh", ln_target = "SYSTEM", clone_target = "SYSTEM", shared = "no" ] TM_MAD_CONF = [ name = "vmfs", ln_target = "NONE", clone_target= "SYSTEM", shared = "yes" ] TM_MAD_CONF = [ name = "ceph", ln_target = "NONE", clone_target = "SELF", shared = "yes" ]