|BOOTSTRAP(5)||Grid Engine File Formats||BOOTSTRAP(5)|
bootstrap - Grid Engine bootstrap file
bootstrap contains parameters that are needed for the startup of Grid Engine components. It is created during the sge_qmaster installation. Modifying bootstrap in a running system is not supported.
The paragraphs that follow provide brief descriptions of the individual parameters that comprise the bootstrap configuration for a Grid Engine cluster:
Administrative user account used by Grid Engine for all internal file handling (status spooling, message logging, etc.). Can be used in cases where the root account does not have the corresponding file access permissions (e.g. on a shared file system without global root read/write access).
As a parameter set at installation time, changing admin_user in a running system is not supported. Changing it manually on a shut-down cluster is possible, but if access to the Grid Engine spooling area is interrupted, this will result in unpredictable behavior.
The admin_user parameter has no default value, but instead it is defined during the master installation procedure.
Only needed if your Grid Engine cluster covers hosts belonging to more than a single DNS domain. In this case it can be used if your hostname resolving yields both qualified and unqualified hostnames for the hosts in one of the DNS domains. The value of default_domain is appended to the unqualified hostname to define a fully qualified hostname. The default_domain parameter will have no effect if ignore_fqdn is set to "true".
As a parameter set at installation time, changing default_domain in a running system is not supported. The default for default_domain is "none", in which case it will not be used.
Ignore fully qualified domain name component of hostnames. Should be set if all hosts belonging to a Grid Engine cluster are part of a single DNS domain. It is switched on if set to either "true" or "1". Switching it on may solve problems with load reports due to different hostname resolutions across the cluster.
As a parameter set at installation time, changing ignore_fqdn in a running system is not supported. The default for ignore_fqdn is "true".
Defines how sge_qmaster(8) writes its configuration and the status information of a running cluster.
The available spooling methods are berkeleydb and classic.
The name of a shared library containing the spooling_method to be loaded at sge_qmaster(8) initialization time. The extension characterizing a shared library (.so, .sl, .dylib etc.) is not contained in spooling_lib.
If spooling_method was set to berkeleydb during installation, spooling_lib is set to libspoolb, and if classic was chosen as spooling_method, spooling_lib is set to libspoolc.
Not all operating systems allow the dynamic loading of libraries. On these platforms a certain spooling method (default: berkeleydb) is compiled into the binaries and the parameter spooling_lib will be ignored.
Defines parameters of the chosen spooling method that are needed to initialize the spooling framework, e.g. to open database files.
The spooling parameters value for spooling method
e.g. "/opt/sge/default/spool/qmaster/spooldb" for spooling to a local filesystem, or "myhost:sge" for spooling over a Berkeley DB RPC server.
rpc_server is obsolete since recent BDB versions don't support RPC and support has been removed from Grid Engine; it must be replaced if it occurs in an old configuration before an upgrade. database directory is the directory containing the spool files, and options is a list of options for the database. Currently the only valid value for options is private, which means to open the database with the DB_PRIVATE flag to specify that it is only accessed by a single process. This allows the database directory to be on an NFSv3 filesystem (as opposed to an NFSv4 one, which is otherwise necessary), but it is unsafe to access it with any other program. In particular, this means that the backup script (inst_sge -bup), similar scripts using the DB utilities, spooledit etc., must not be used while qmaster is running with berkeleydb spooling.
For spooling method classic the spooling parameters take the form <common_dir>;<qmaster spool dir>, e.g. /sge/default/common;/sge/default/spool/qmaster
The directory path where the Grid Engine binaries reside. It is used within Grid Engine components to locate and startup other Grid Engine programs.
The path name given here is searched for binaries as well as any directory below with a directory name equal to the current operating system architecture. Therefore, /usr/SGE/bin will work for all architectures, if the corresponding binaries are located in subdirectories named aix51, lx-amd64, lx-x86, hp11, hp11-64, sol-amd64, sol-sparc etc.
The default location for the binary path is <sge_root>/bin
The location where the master spool directory resides. Only the sge_qmaster(8) and sge_shadowd(8) need to have access to this directory. The master spool directory - in particular the job_scripts directory and the messages log file - may become quite large, depending on the size of the cluster and the number of jobs. Be sure to allocate enough disk space and regularly clean off the log files, e.g. via a cron(8) job.
As a parameter set at installation time, changing qmaster_spool_dir in a running system is not supported.
The default location for the master spool directory is <sge_root>/<cell>/spool/qmaster.
The security mode defines the set of security features the installed cluster is using, as a comma-separated list.
Possible security mode settings are "none", "afs", "dce", "kerberos", "csp", "munge" (no additional security, AFS, DCE/GSSAPI, Kerberos/GSSAPI, X.509 certificate-based security, and MUNGE authentication ⟨URL: http://munge.googlecode.com/ ⟩). Their availability depends on how Grid Engine was built/installed.
The "dce" and "kerberos" methods are nearly equivalent, calling the GSSAPI security modules in the same way, whether they were built for Kerberos/GSSAPI or DCE/GSSAPI, except that "dce" runs the program $SGE_ROOT/utilbin/$ARCH/starter_cred as a wrapper for the shepherd unless NO_SECURITY is specified in execd_params in sge_conf(5).
Only the CSP and MUNGE methods are currently properly functional and safe (from the point of view of not exposing credentials generally). Both provide user authentication, preventing impersonation of other users. CSP requires certificates to be generated for each user and available on each host which the user can access; it is appropriate for a loosely coupled system, e.g. including desktop systems, particularly as it protects the communication stream as well as providing authentication. MUNGE is appropriate in the security domain of a tightly coupled system, such as a normal cluster, and allows operation with enforce_user=auto (see sge_conf(5);) it requires the munged daemon to be running on each host, with a shared secret and doesn't encrypt the communication.
NB. Do not use AFS security without some means of user authentication, otherwise it is possible to submit jobs as another user and steal their credential from a job running on the same node.
The number of listener threads (defaults set by installation). Increasing this and/or worker_threads (below) to use additional cores/hardware threads on the master host may improve performance in demanding cases.
The number of qmaster worker threads (defaults set by installation).
The number of qmaster scheduler threads (allowed: 0-1, default set by installation: 1, off: 0; see qconf(1) -kt/-at option).
The number of JVM threads (allowed: 0-1, default set by installation, off: 0).
See sge_intro(1) for a full statement of rights and permissions.