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condor_submit

Queue jobs for execution under Condor

Synopsis

condor_submit [-verbose] [-unused] [-name schedd_name] [-remote schedd_name] [-addr <ip:port>] [-pool pool_name] [-disable] [-password passphrase] [-debug] [-append command ... ] [-spool] [-dump filename] [submit description file]

Description

condor_submit is the program for submitting jobs for execution under Condor. condor_submit requires a submit description file which contains commands to direct the queuing of jobs. One submit description file may contain specifications for the queuing of many Condor jobs at once. A single invocation of condor_submit may cause one or more clusters. A cluster is a set of jobs specified in the submit description file between queue commands for which the executable is not changed. It is advantageous to submit multiple jobs as a single cluster because:

Multiple clusters may be specified within a single submit description file. Each cluster must specify a single executable.

The job ClassAd attribute ClusterId identifies a cluster. See specifics for this attribute in the Appendix on page [*].

Note that submission of jobs from a Windows machine requires a stashed password to allow Condor to impersonate the user submitting the job. To stash a password, use the condor_store_cred command. See the manual page at page [*] for details.

For lengthy lines within the submit description file, the backslash ( $\mathtt{\backslash}$) is a line continuation character. Placing the backslash at the end of a line causes the current line's command to be continued with the next line of the file. Submit description files may contain comments. A comment is any line beginning with a pound character (#).

Here is a list of the commands that may be placed in the submit description file to direct the submission of a job.

Options

-verbose
Verbose output - display the created job ClassAd

-unused
As a default, causes no warnings to be issued about user-defined macros not being used within the submit description file. The meaning reverses (toggles) when the configuration variable WARN_ON_UNUSED_SUBMIT_FILE_MACROS is set to the nondefault value of False. Printing the warnings can help identify spelling errors of submit description file commands. The warnings are sent to stderr.

-name schedd_name
Submit to the specified condor_schedd. Use this option to submit to a condor_schedd other than the default local one. schedd_name is the value of the Name ClassAd attribute on the machine where the condor_schedd daemon runs.

-remote schedd_name
Submit to the specified condor_schedd, spooling all required input files over the network connection. schedd_name is the value of the Name ClassAd attribute on the machine where the condor_schedd daemon runs. This option is equivalent to using both -name and -spool.

-addr <ip:port>
Submit to the condor_schedd at the IP address and port given by the sinful string argument <ip:port>.

-pool pool_name
Look in the specified pool for the condor_schedd to submit to. This option is used with -name or -remote.

-disable
Disable file permission checks when submitting a job for read permissions on all input files, such as those defined by commands input and transfer_input_files, as well as write permission to output files, such as a log file defined by log and output files defined with output or transfer_output_files.

-password passphrase
Specify a password to the MyProxy server.

-debug
Cause debugging information to be sent to stderr, based on the value of the configuration variable TOOL_DEBUG.

-append command
Augment the commands in the submit description file with the given command. This command will be considered to immediately precede the Queue command within the submit description file, and come after all other previous commands. The submit description file is not modified. Multiple commands are specified by using the -append option multiple times. Each new command is given in a separate -append option. Commands with spaces in them will need to be enclosed in double quote marks.

-spool
Spool all required input files, user log, and proxy over the connection to the condor_schedd. After submission, modify local copies of the files without affecting your jobs. Any output files for completed jobs need to be retrieved with condor_transfer_data.

-dump filename
Sends all ClassAds to the specified file, instead of to the condor_schedd.

submit description file
The pathname to the submit description file. If this optional argument is missing or equal to ``-'', then the commands are taken from standard input.


Submit Description File Commands

Each submit description file describes one cluster of jobs to be placed in the Condor execution pool. All jobs in a cluster must share the same executable, but they may have different input and output files, and different program arguments. The submit description file is the only command-line argument to condor_submit. If the submit description file argument is omitted, condor_submit will read the submit description from standard input.

The submit description file must contain one executable command and at least one queue command. All of the other commands have default actions.

The commands which can appear in the submit description file are numerous. They are listed here in alphabetical order by category.

BASIC COMMANDS

arguments = <argument_list>
List of arguments to be supplied to the executable as part of the command line.

In the java universe, the first argument must be the name of the class containing main.

There are two permissible formats for specifying arguments, identified as the old syntax and the new syntax. The old syntax supports white space characters within arguments only in special circumstances, hence the new syntax, which supports uniform quoting of white space characters within arguments.

Old Syntax

In the old syntax, individual command line arguments are delimited (separated) by space characters. To allow a double quote mark in an argument, it is escaped with a backslash; that is, the two character sequence \" becomes a single double quote mark within an argument.

Further interpretation of the argument string differs depending on the operating system. On Windows, the entire argument string is passed verbatim (other than the backslash in front of double quote marks) to the Windows application. Most Windows applications will allow spaces within an argument value by surrounding the argument with double quotes marks. In all other cases, there is no further interpretation of the arguments.

Example:

arguments = one \"two\" 'three'

Produces in Unix vanilla universe:

argument 1: one
argument 2: "two"
argument 3: 'three'

New Syntax

Here are the rules for using the new syntax:

  1. The entire string representing the command line arguments is surrounded by double quote marks. This permits the white space characters of spaces and tabs to potentially be embedded within a single argument. Putting the double quote mark within the arguments is accomplished by escaping it with another double quote mark.

  2. The white space characters of spaces or tabs delimit arguments.

  3. To embed white space characters of spaces or tabs within a single argument, surround the entire argument with single quote marks.

  4. To insert a literal single quote mark, escape it within an argument already delimited by single quote marks by adding another single quote mark.

Example:

arguments = "3 simple arguments"
Produces:
argument 1: 3
argument 2: simple
argument 3: arguments

Another example:

arguments = "one 'two with spaces'	3"
Produces:
argument 1: one
argument 2: two with spaces
argument 3: 3

And yet another example:

arguments = "one ""two"" 'spacey ''quoted'' argument'"

Produces:

argument 1: one
argument 2: "two"
argument 3: spacey 'quoted' argument

Notice that in the new syntax, the backslash has no special meaning. This is for the convenience of Windows users.

environment = <parameter_list>
List of environment variables.

There are two different formats for specifying the environment variables: the old format and the new format. The old format is retained for backward-compatibility. It suffers from a platform-dependent syntax and the inability to insert some special characters into the environment.

The new syntax for specifying environment values:

  1. Put double quote marks around the entire argument string. This distinguishes the new syntax from the old. The old syntax does not have double quote marks around it. Any literal double quote marks within the string must be escaped by repeating the double quote mark.

  2. Each environment entry has the form

    <name>=<value>
    

  3. Use white space (space or tab characters) to separate environment entries.

  4. To put any white space in an environment entry, surround the space and as much of the surrounding entry as desired with single quote marks.

  5. To insert a literal single quote mark, repeat the single quote mark anywhere inside of a section surrounded by single quote marks.

Example:

environment = "one=1 two=""2"" three='spacey ''quoted'' value'"

Produces the following environment entries:

one=1
two="2"
three=spacey 'quoted' value

Under the old syntax, there are no double quote marks surrounding the environment specification. Each environment entry remains of the form

<name>=<value>
Under Unix, list multiple environment entries by separating them with a semicolon (;). Under Windows, separate multiple entries with a vertical bar (| ). There is no way to insert a literal semicolon under Unix or a literal vertical bar under Windows. Note that spaces are accepted, but rarely desired, characters within parameter names and values, because they are treated as literal characters, not separators or ignored white space. Place spaces within the parameter list only if required.

A Unix example:

environment = one=1;two=2;three="quotes have no 'special' meaning"

This produces the following:

one=1
two=2
three="quotes have no 'special' meaning"

If the environment is set with the environment command and getenv is also set to true, values specified with environment override values in the submitter's environment (regardless of the order of the environment and getenv commands).

error = <pathname>
A path and file name used by Condor to capture any error messages the program would normally write to the screen (that is, this file becomes stderr). A path is given with respect to the file system of the machine on which the job is submitted. The file is written (by the job) in the remote scratch directory of the machine where the job is executed. When the job exits, the resulting file is transferred back to the machine where the job was submitted, and the path is utilized for file placement. If not specified, the default value of /dev/null is used for submission to a Unix machine. If not specified, error messages are ignored for submission to a Windows machine. More than one job should not use the same error file, since this will cause one job to overwrite the errors of another. The error file and the output file should not be the same file as the outputs will overwrite each other or be lost. For grid universe jobs, error may be a URL that the Globus tool globus_url_copy understands.

executable = <pathname>
An optional path and a required file name of the executable file for this job cluster. Only one executable command within a submit description file is guaranteed to work properly. More than one often works.

If no path or a relative path is used, then the executable file is presumed to be relative to the current working directory of the user as the condor_submit command is issued.

If submitting into the standard universe, then the named executable must have been re-linked with the Condor libraries (such as via the condor_compile command). If submitting into the vanilla universe (the default), then the named executable need not be re-linked and can be any process which can run in the background (shell scripts work fine as well). If submitting into the Java universe, then the argument must be a compiled .class file.

getenv = <True | False>
If getenv is set to True, then condor_submit will copy all of the user's current shell environment variables at the time of job submission into the job ClassAd. The job will therefore execute with the same set of environment variables that the user had at submit time. Defaults to False.

If the environment is set with the environment command and getenv is also set to true, values specified with environment override values in the submitter's environment (regardless of the order of the environment and getenv commands).

input = <pathname>
Condor assumes that its jobs are long-running, and that the user will not wait at the terminal for their completion. Because of this, the standard files which normally access the terminal, (stdin, stdout, and stderr), must refer to files. Thus, the file name specified with input should contain any keyboard input the program requires (that is, this file becomes stdin). A path is given with respect to the file system of the machine on which the job is submitted. The file is transferred before execution to the remote scratch directory of the machine where the job is executed. If not specified, the default value of /dev/null is used for submission to a Unix machine. If not specified, input is ignored for submission to a Windows machine. For grid universe jobs, input may be a URL that the Globus tool globus_url_copy understands.

Note that this command does not refer to the command-line arguments of the program. The command-line arguments are specified by the arguments command.

log = <pathname>
Use log to specify a file name where Condor will write a log file of what is happening with this job cluster. For example, Condor will place a log entry into this file when and where the job begins running, when the job produces a checkpoint, or moves (migrates) to another machine, and when the job completes. Most users find specifying a log file to be handy; its use is recommended. If no log entry is specified, Condor does not create a log for this cluster.

log_xml = <True | False>
If log_xml is True, then the log file will be written in ClassAd XML. If not specified, XML is not used. Note that the file is an XML fragment; it is missing the file header and footer. Do not mix XML and non-XML within a single file. If multiple jobs write to a single log file, ensure that all of the jobs specify this option in the same way.

notification = <Always | Complete | Error | Never>
Owners of Condor jobs are notified by e-mail when certain events occur. If defined by Always, the owner will be notified whenever the job produces a checkpoint, as well as when the job completes. If defined by Complete (the default), the owner will be notified when the job terminates. If defined by Error, the owner will only be notified if the job terminates abnormally, or if the job is placed on hold because of a failure, and not by user request. If defined by Never, the owner will not receive e-mail, regardless to what happens to the job. The statistics included in the e-mail are documented in section 2.6.7 on page [*].

notify_user = <email-address>
Used to specify the e-mail address to use when Condor sends e-mail about a job. If not specified, Condor defaults to using the e-mail address defined by
job-owner@UID_DOMAIN
where the configuration variable UID_DOMAIN is specified by the Condor site administrator. If UID_DOMAIN has not been specified, Condor sends the e-mail to:
job-owner@submit-machine-name

output = <pathname>
The output file captures any information the program would ordinarily write to the screen (that is, this file becomes stdout). A path is given with respect to the file system of the machine on which the job is submitted. The file is written (by the job) in the remote scratch directory of the machine where the job is executed. When the job exits, the resulting file is transferred back to the machine where the job was submitted, and the path is utilized for file placement. If not specified, the default value of /dev/null is used for submission to a Unix machine. If not specified, output is ignored for submission to a Windows machine. Multiple jobs should not use the same output file, since this will cause one job to overwrite the output of another. The output file and the error file should not be the same file as the outputs will overwrite each other or be lost. For grid universe jobs, output may be a URL that the Globus tool globus_url_copy understands.

Note that if a program explicitly opens and writes to a file, that file should not be specified as the output file.

priority = <integer>
A Condor job priority can be any integer, with 0 being the default. Jobs with higher numerical priority will run before jobs with lower numerical priority. Note that this priority is on a per user basis. One user with many jobs may use this command to order his/her own jobs, and this will have no effect on whether or not these jobs will run ahead of another user's jobs.

queue [number-of-procs]
Places one or more copies of the job into the Condor queue. The optional argument number-of-procs specifies how many times to submit the job to the queue, and it defaults to 1. If desired, any commands may be placed between subsequent queue commands, such as new input, output, error, initialdir, or arguments commands. This is handy when submitting multiple runs into one cluster with one submit description file.

universe = <vanilla | standard | scheduler | local | grid | java | vm>
Specifies which Condor Universe to use when running this job. The Condor Universe specifies a Condor execution environment. The standard Universe tells Condor that this job has been re-linked via condor_compile with the Condor libraries and therefore supports checkpointing and remote system calls. The vanilla Universe is the default (except where the configuration variable DEFAULT_UNIVERSE defines it otherwise), and is an execution environment for jobs which have not been linked with the Condor libraries. Note: Use the vanilla Universe to submit shell scripts to Condor. The scheduler is for a job that should act as a metascheduler. The grid universe forwards the job to an external job management system. Further specification of the grid universe is done with the grid_resource command. The java universe is for programs written to the Java Virtual Machine. The vm universe facilitates the execution of a virtual machine.

COMMANDS FOR MATCHMAKING

rank = <ClassAd Float Expression>
A ClassAd Floating-Point expression that states how to rank machines which have already met the requirements expression. Essentially, rank expresses preference. A higher numeric value equals better rank. Condor will give the job the machine with the highest rank. For example,
        requirements = Memory > 60
        rank = Memory
asks Condor to find all available machines with more than 60 megabytes of memory and give to the job the machine with the most amount of memory. See section 2.5.2 within the Condor Users Manual for complete information on the syntax and available attributes that can be used in the ClassAd expression.

request_cpus = <num-cpus>
A requested number of CPUs (cores). If not specified, the number requested will be 1. If specified, the expression
  && (RequestCpus <= Target.Cpus)
is appended to the requirements expression for the job.

For pools that enable dynamic condor_startd provisioning (see section 3.12.8), specifies the minimum number of CPUs requested for this job, resulting in a dynamic slot being created with this many cores.

request_disk = <quantity>
The requested amount of disk space in Kbytes requested for this job. If not specified, it will be set to the job ClassAd attribute DiskUsage. The expression
  && (RequestDisk <= Target.Disk)
is appended to the requirements expression for the job.

For pools that enable dynamic condor_startd provisioning (see section 3.12.8), a dynamic slot will be created with at least this much disk space.

Characters may be appended to a numerical value to indicate units. K or KB indicates Kbytes. M or MB indicates Mbytes. G or GB indicates Gbytes. T or TB indicates Tbytes.

request_memory = <quantity>
The required amount of memory in Mbytes that this job needs to avoid excessive swapping. If not specified and the submit command vm_memory is specified, then the value specified for vm_memory defines request_memory. If neither request_memory nor vm_memory is specified, the value is set by the configuration variable JOB_DEFAULT_REQUESTMEMORY . The actual amount of memory used by a job is represented by the job ClassAd attribute MemoryUsage.

For pools that enable dynamic condor_startd provisioning (see section 3.12.8), a dynamic slot will be created with at least this much RAM.

The expression

  && (RequestMemory <= Target.Memory)
is appended to the requirements expression for the job.

Characters may be appended to a numerical value to indicate units. K or KB indicates Kbytes. M or MB indicates Mbytes. G or GB indicates Gbytes. T or TB indicates Tbytes.

requirements = <ClassAd Boolean Expression>
The requirements command is a boolean ClassAd expression which uses C-like operators. In order for any job in this cluster to run on a given machine, this requirements expression must evaluate to true on the given machine.

For scheduler and local universe jobs, the requirements expression is evaluated against the Scheduler ClassAd which represents the the condor_schedd daemon running on the submit machine, rather than a remote machine. Like all commands in the submit description file, if multiple requirements commands are present, all but the last one are ignored. By default, condor_submit appends the following clauses to the requirements expression:

  1. Arch and OpSys are set equal to the Arch and OpSys of the submit machine. In other words: unless you request otherwise, Condor will give your job machines with the same architecture and operating system version as the machine running condor_submit.
  2. Cpus >= RequestCpus, if the job ClassAd attribute RequestCpus is defined.
  3. Disk >= RequestDisk, if the job ClassAd attribute RequestDisk is defined. Otherwise, Disk >= DiskUsage is appended to the requirements. The DiskUsage attribute is initialized to the size of the executable plus the size of any files specified in a transfer_input_files command. It exists to ensure there is enough disk space on the target machine for Condor to copy over both the executable and needed input files. The DiskUsage attribute represents the maximum amount of total disk space required by the job in kilobytes. Condor automatically updates the DiskUsage attribute approximately every 20 minutes while the job runs with the amount of space being used by the job on the execute machine.
  4. Memory >= RequestMemory, if the job ClassAd attribute RequestMemory is defined.
  5. If Universe is set to Vanilla, FileSystemDomain is set equal to the submit machine's FileSystemDomain.
View the requirements of a job which has already been submitted (along with everything else about the job ClassAd) with the command condor_q -l; see the command reference for condor_q on page [*]. Also, see the Condor Users Manual for complete information on the syntax and available attributes that can be used in the ClassAd expression.

FILE TRANSFER COMMANDS

output_destination = <destination-URL>
When present, defines a URL that specifies both a plug-in and a destination for the transfer of the entire output sandbox or a subset of output files as specified by the submit command transfer_output_files. The plug-in does the transfer of files, and no files are sent back to the submit machine. See both section 3.12.2 and section 2.5.4 for details.

should_transfer_files = <YES | NO | IF_NEEDED >
The should_transfer_files setting is used to define if Condor should transfer files to and from the remote machine where the job runs. The file transfer mechanism is used to run jobs which are not in the standard universe (and can therefore use remote system calls for file access) on machines which do not have a shared file system with the submit machine. should_transfer_files equal to YES will cause Condor to always transfer files for the job. NO disables Condor's file transfer mechanism. IF_NEEDED will not transfer files for the job if it is matched with a resource in the same FileSystemDomain as the submit machine (and therefore, on a machine with the same shared file system). If the job is matched with a remote resource in a different FileSystemDomain, Condor will transfer the necessary files.

For more information about this and other settings related to transferring files, see section 2.5.4 on page [*].

Note that should_transfer_files is not supported for jobs submitted to the grid universe.

skip_filechecks = <True | False>
When True, file permission checks for the submitted job are disabled. When False, file permissions are checked; this is the behavior when this command is not present in the submit description file. File permissions are checked for read permissions on all input files, such as those defined by commands input and transfer_input_files, and for write permission to output files, such as a log file defined by log and output files defined with output or transfer_output_files.

stream_error = <True | False>
If True, then stderr is streamed back to the machine from which the job was submitted. If False, stderr is stored locally and transferred back when the job completes. This command is ignored if the job ClassAd attribute TransferErr is False. The default value is True in the grid universe and False otherwise. This command must be used in conjunction with error, otherwise stderr will sent to /dev/null on Unix machines and ignored on Windows machines.

stream_input = <True | False>
If True, then stdin is streamed from the machine on which the job was submitted. The default value is False. The command is only relevant for jobs submitted to the vanilla or java universes, and it is ignored by the grid universe. This command must be used in conjunction with input, otherwise stdin will be /dev/null on Unix machines and ignored on Windows machines.

stream_output = <True | False>
If True, then stdout is streamed back to the machine from which the job was submitted. If False, stdout is stored locally and transferred back when the job completes. This command is ignored if the job ClassAd attribute TransferOut is False. The default value is True in the grid universe and False otherwise. This command must be used in conjunction with output, otherwise stdout will sent to /dev/null on Unix machines and ignored on Windows machines.

transfer_executable = <True | False>
This command is applicable to jobs submitted to the grid and vanilla universes. If transfer_executable is set to False, then Condor looks for the executable on the remote machine, and does not transfer the executable over. This is useful for an already pre-staged executable; Condor behaves more like rsh. The default value is True.

transfer_input_files = < file1,file2,file... >
A comma-delimited list of all the files and directories to be transferred into the working directory for the job, before the job is started. By default, the file specified in the executable command and any file specified in the input command (for example, stdin) are transferred.

When a path to an input file or directory is specified, this specifies the path to the file on the submit side. The file is placed in the job's temporary scratch directory on the execute side, and it is named using the base name of the original path. For example, /path/to/input_file becomes input_file in the job's scratch directory.

A directory may be specified using a trailing path separator. An example of a trailing path separator is the slash character on Unix platforms; a directory example using a trailing path separator is input_data/. When a directory is specified with a trailing path separator, the contents of the directory are transferred, but the directory itself is not transferred. It is as if each of the items within the directory were listed in the transfer list. When there is no trailing path separator, the directory is transferred, its contents are transferred, and these contents are placed inside the transferred directory.

For grid universe jobs other than Condor-C, the transfer of directories is not currently supported.

Symbolic links to files are transferred as the files they point to. Transfer of symbolic links to directories is not currently supported.

For vanilla and vm universe jobs only, a file may be specified by giving a URL, instead of a file name. The implementation for URL transfers requires both configuration and available plug-in. See section 3.12.2 for details.

For more information about this and other settings related to transferring files, see section 2.5.4 on page [*].

transfer_output_files = < file1,file2,file... >
This command forms an explicit list of output files and directories to be transferred back from the temporary working directory on the execute machine to the submit machine. If there are multiple files, they must be delimited with commas.

For Condor-C jobs and all other non-grid universe jobs, if transfer_output_files is not specified, Condor will automatically transfer back all files in the job's temporary working directory which have been modified or created by the job. Subdirectories are not scanned for output, so if output from subdirectories is desired, the output list must be explicitly specified. For grid universe jobs other than Condor-C, desired output files must also be explicitly listed. Another reason to explicitly list output files is for a job that creates many files, and the user wants only a subset transferred back.

For grid universe jobs other than with grid type condor, to have files other than standard output and standard error transferred from the execute machine back to the submit machine, do use transfer_output_files, listing all files to be transferred. These files are found on the execute machine in the working directory of the job.

When a path to an output file or directory is specified, it specifies the path to the file on the execute side. As a destination on the submit side, the file is placed in the job's initial working directory, and it is named using the base name of the original path. For example, path/to/output_file becomes output_file in the job's initial working directory. The name and path of the file that is written on the submit side may be modified by using transfer_output_remaps. Note that this remap function only works with files but not with directories.

A directory may be specified using a trailing path separator. An example of a trailing path separator is the slash character on Unix platforms; a directory example using a trailing path separator is input_data/. When a directory is specified with a trailing path separator, the contents of the directory are transferred, but the directory itself is not transferred. It is as if each of the items within the directory were listed in the transfer list. When there is no trailing path separator, the directory is transferred, its contents are transferred, and these contents are placed inside the transferred directory.

For grid universe jobs other than Condor-C, the transfer of directories is not currently supported.

Symbolic links to files are transferred as the files they point to. Transfer of symbolic links to directories is not currently supported.

For more information about this and other settings related to transferring files, see section 2.5.4 on page [*].

transfer_output_remaps = < `` name = newname ; name2 = newname2 ... ''>
This specifies the name (and optionally path) to use when downloading output files from the completed job. Normally, output files are transferred back to the initial working directory with the same name they had in the execution directory. This gives you the option to save them with a different path or name. If you specify a relative path, the final path will be relative to the job's initial working directory.

name describes an output file name produced by your job, and newname describes the file name it should be downloaded to. Multiple remaps can be specified by separating each with a semicolon. If you wish to remap file names that contain equals signs or semicolons, these special characters may be escaped with a backslash. You cannot specify directories to be remapped.

when_to_transfer_output = < ON_EXIT | ON_EXIT_OR_EVICT >

Setting when_to_transfer_output equal to ON_EXIT will cause Condor to transfer the job's output files back to the submitting machine only when the job completes (exits on its own).

The ON_EXIT_OR_EVICT option is intended for fault tolerant jobs which periodically save their own state and can restart where they left off. In this case, files are spooled to the submit machine any time the job leaves a remote site, either because it exited on its own, or was evicted by the Condor system for any reason prior to job completion. The files spooled back are placed in a directory defined by the value of the SPOOL configuration variable. Any output files transferred back to the submit machine are automatically sent back out again as input files if the job restarts.

For more information about this and other settings related to transferring files, see section 2.5.4 on page [*].

POLICY COMMANDS

hold = <True | False>
If hold is set to True, then the submitted job will be placed into the Hold state. Jobs in the Hold state will not run until released by condor_release. Defaults to False.

keep_claim_idle = <integer>
An integer number of seconds that a job requests the condor_schedd to wait before releasing its claim after the job exits.

The process by which the condor_schedd claims a condor_startd is somewhat time-consuming. To amortize this cost, the condor_schedd tries to reuse claims to run subsequent jobs, after a job using a claim is done. However, it can only do this if there is an idle job in the queue at the moment the previous job completes. Sometimes, and especially for the node jobs when using DAGMan, there is a subsequent job about to be submitted, but it has not yet arrived in the queue when the previous job completes. As a result, the condor_schedd releases the claim, and the next job must wait an entire negotiation cycle to start. When this submit command is defined with a non-negative integer, when the job exits, the condor_schedd tries as usual to reuse the claim. If it cannot, instead of releasing the claim, the condor_schedd keeps the claim until either the number of seconds given as a parameter, or a new job which matches that claim arrives, whichever comes first. The condor_startd in question will remain in the Claimed/Idle state, and the original job will be "charged" (in terms of priority) for the time in this state.

leave_in_queue = <ClassAd Boolean Expression>
When the ClassAd Expression evaluates to True, the job is not removed from the queue upon completion. This allows the user of a remotely spooled job to retrieve output files in cases where Condor would have removed them as part of the cleanup associated with completion. The job will only exit the queue once it has been marked for removal (via condor_rm, for example) and the leave_in_queue expression has become False. leave_in_queue defaults to False.

As an example, if the job is to be removed once the output is retrieved with condor_transfer_data, then use

leave_in_queue = (JobStatus == 4) && ((StageOutFinish =?= UNDEFINED) ||\
                 (StageOutFinish == 0))

next_job_start_delay = <ClassAd Boolean Expression>
This expression specifies the number of seconds to delay after starting up this job before the next job is started. The maximum allowed delay is specified by the Condor configuration variable MAX_NEXT_JOB_START_DELAY , which defaults to 10 minutes. This command does not apply to scheduler or local universe jobs.

This command has been historically used to implement a form of job start throttling from the job submitter's perspective. It was effective for the case of multiple job submission where the transfer of extremely large input data sets to the execute machine caused machine performance to suffer. This command is no longer useful, as throttling should be accomplished through configuration of the condor_schedd daemon.

on_exit_hold = <ClassAd Boolean Expression>
The ClassAd expression is checked when the job exits, and if True, places the job into the Hold state. If False (the default value when not defined), then nothing happens and the on_exit_remove expression is checked to determine if that needs to be applied.

For example: Suppose a job is known to run for a minimum of an hour. If the job exits after less than an hour, the job should be placed on hold and an e-mail notification sent, instead of being allowed to leave the queue.

  on_exit_hold = (CurrentTime - JobStartDate) < (60 * $(MINUTE))

This expression places the job on hold if it exits for any reason before running for an hour. An e-mail will be sent to the user explaining that the job was placed on hold because this expression became True.

periodic_* expressions take precedence over on_exit_* expressions, and *_hold expressions take precedence over a *_remove expressions.

Only job ClassAd attributes will be defined for use by this ClassAd expression. This expression is available for the vanilla, java, parallel, grid, local and scheduler universes. It is additionally available, when submitted from a Unix machine, for the standard universe.

on_exit_hold_reason = <ClassAd String Expression>
When the job is placed on hold due to the on_exit_hold expression becoming True, this expression is evaluated to set the value of HoldReason in the job ClassAd. If this expression is UNDEFINED or produces an empty or invalid string, a default description is used.

on_exit_hold_subcode = <ClassAd Integer Expression>
When the job is placed on hold due to the on_exit_hold expression becoming True, this expression is evaluated to set the value of HoldReasonSubCode in the job ClassAd. The default subcode is 0. The HoldReasonCode will be set to 3, which indicates that the job went on hold due to a job policy expression.

on_exit_remove = <ClassAd Boolean Expression>
The ClassAd expression is checked when the job exits, and if True (the default value when undefined), then it allows the job to leave the queue normally. If False, then the job is placed back into the Idle state. If the user job runs under the vanilla universe, then the job restarts from the beginning. If the user job runs under the standard universe, then it continues from where it left off, using the last checkpoint.

For example, suppose a job occasionally segfaults, but chances are that the job will finish successfully if the job is run again with the same data. The on_exit_remove expression can cause the job to run again with the following command. Assume that the signal identifier for the segmentation fault is 11 on the platform where the job will be running.

  on_exit_remove = (ExitBySignal == False) || (ExitSignal != 11)
This expression lets the job leave the queue if the job was not killed by a signal or if it was killed by a signal other than 11, representing segmentation fault in this example. So, if the exited due to signal 11, it will stay in the job queue. In any other case of the job exiting, the job will leave the queue as it normally would have done.

As another example, if the job should only leave the queue if it exited on its own with status 0, this on_exit_remove expression works well:

  on_exit_remove = (ExitBySignal == False) && (ExitCode == 0)
If the job was killed by a signal or exited with a non-zero exit status, Condor would leave the job in the queue to run again.

periodic_* expressions take precedence over on_exit_* expressions, and *_hold expressions take precedence over a *_remove expressions.

Only job ClassAd attributes will be defined for use by this ClassAd expression. This expression is available for the vanilla, java, parallel, grid, local and scheduler universes. It is additionally available, when submitted from a Unix machine, for the standard universe. Note that the condor_schedd daemon, by default, only checks these periodic expressions once every 300 seconds. The period of these evaluations can be adjusted by setting the PERIODIC_EXPR_INTERVAL configuration macro.

periodic_hold = <ClassAd Boolean Expression>
This expression is checked periodically at an interval of the number of seconds set by the configuration variable PERIODIC_EXPR_INTERVAL. If it becomes True, the job will be placed on hold. If unspecified, the default value is False.

periodic_* expressions take precedence over on_exit_* expressions, and *_hold expressions take precedence over a *_remove expressions.

Only job ClassAd attributes will be defined for use by this ClassAd expression. This expression is available for the vanilla, java, parallel, grid, local and scheduler universes. It is additionally available, when submitted from a Unix machine, for the standard universe. Note that the condor_schedd daemon, by default, only checks these periodic expressions once every 300 seconds. The period of these evaluations can be adjusted by setting the PERIODIC_EXPR_INTERVAL configuration macro.

periodic_hold_reason = <ClassAd String Expression>
When the job is placed on hold due to the periodic_hold expression becoming True, this expression is evaluated to set the value of HoldReason in the job ClassAd. If this expression is UNDEFINED or produces an empty or invalid string, a default description is used.

periodic_hold_subcode = <ClassAd Integer Expression>
When the job is placed on hold due to the periodic_hold expression becoming true, this expression is evaluated to set the value of HoldReasonSubCode in the job ClassAd. The default subcode is 0. The HoldReasonCode will be set to 3, which indicates that the job went on hold due to a job policy expression.

periodic_release = <ClassAd Boolean Expression>
This expression is checked periodically at an interval of the number of seconds set by the configuration variable PERIODIC_EXPR_INTERVAL while the job is in the Hold state. If the expression becomes True, the job will be released.

Only job ClassAd attributes will be defined for use by this ClassAd expression. This expression is available for the vanilla, java, parallel, grid, local and scheduler universes. It is additionally available, when submitted from a Unix machine, for the standard universe. Note that the condor_schedd daemon, by default, only checks periodic expressions once every 300 seconds. The period of these evaluations can be adjusted by setting the PERIODIC_EXPR_INTERVAL configuration macro.

periodic_remove = <ClassAd Boolean Expression>
This expression is checked periodically at an interval of the number of seconds set by the configuration variable PERIODIC_EXPR_INTERVAL. If it becomes True, the job is removed from the queue. If unspecified, the default value is False.

See section 10, the Examples section of the condor_submit manual page, for an example of a periodic_remove expression.

periodic_* expressions take precedence over on_exit_* expressions, and *_hold expressions take precedence over a *_remove expressions. So, the periodic_remove expression takes precedent over the on_exit_remove expression, if the two describe conflicting actions.

Only job ClassAd attributes will be defined for use by this ClassAd expression. This expression is available for the vanilla, java, parallel, grid, local and scheduler universes. It is additionally available, when submitted from a Unix machine, for the standard universe. Note that the condor_schedd daemon, by default, only checks periodic expressions once every 300 seconds. The period of these evaluations can be adjusted by setting the PERIODIC_EXPR_INTERVAL configuration macro.

COMMANDS SPECIFIC TO THE STANDARD UNIVERSE

allow_startup_script = <True | False>
If True, a standard universe job will execute a script instead of submitting the job, and the consistency check to see if the executable has been linked using condor_compile is omitted. The executable command within the submit description file specifies the name of the script. The script is used to do preprocessing before the job is submitted. The shell script ends with an exec of the job executable, such that the process id of the executable is the same as that of the shell script. Here is an example script that gets a copy of a machine-specific executable before the exec.
 
   #! /bin/sh

   # get the host name of the machine
   $host=`uname -n`

   # grab a standard universe executable designed specifically
   # for this host
   scp elsewhere@cs.wisc.edu:${host} executable

   # The PID MUST stay the same, so exec the new standard universe process.
   exec executable ${1+"$@"}
If this command is not present (defined), then the value defaults to false.

append_files = file1, file2, ...

If your job attempts to access a file mentioned in this list, Condor will force all writes to that file to be appended to the end. Furthermore, condor_submit will not truncate it. This list uses the same syntax as compress_files, shown above.

This option may yield some surprising results. If several jobs attempt to write to the same file, their output may be intermixed. If a job is evicted from one or more machines during the course of its lifetime, such an output file might contain several copies of the results. This option should be only be used when you wish a certain file to be treated as a running log instead of a precise result.

This option only applies to standard-universe jobs.

buffer_files = < `` name = (size,block-size) ; name2 = (size,block-size) ... '' >
buffer_size = <bytes-in-buffer>
buffer_block_size = <bytes-in-block>
Condor keeps a buffer of recently-used data for each file a job accesses. This buffer is used both to cache commonly-used data and to consolidate small reads and writes into larger operations that get better throughput. The default settings should produce reasonable results for most programs.

These options only apply to standard-universe jobs.

If needed, you may set the buffer controls individually for each file using the buffer_files option. For example, to set the buffer size to 1 Mbyte and the block size to 256 Kbytes for the file input.data, use this command:

buffer_files = "input.data=(1000000,256000)"

Alternatively, you may use these two options to set the default sizes for all files used by your job:

buffer_size = 1000000
buffer_block_size = 256000

If you do not set these, Condor will use the values given by these two configuration file macros:

DEFAULT_IO_BUFFER_SIZE = 1000000
DEFAULT_IO_BUFFER_BLOCK_SIZE = 256000

Finally, if no other settings are present, Condor will use a buffer of 512 Kbytes and a block size of 32 Kbytes.

compress_files = file1, file2, ...

If your job attempts to access any of the files mentioned in this list, Condor will automatically compress them (if writing) or decompress them (if reading). The compress format is the same as used by GNU gzip.

The files given in this list may be simple file names or complete paths and may include * as a wild card. For example, this list causes the file /tmp/data.gz, any file named event.gz, and any file ending in .gzip to be automatically compressed or decompressed as needed:

compress_files = /tmp/data.gz, event.gz, *.gzip
Due to the nature of the compression format, compressed files must only be accessed sequentially. Random access reading is allowed but is very slow, while random access writing is simply not possible. This restriction may be avoided by using both compress_files and fetch_files at the same time. When this is done, a file is kept in the decompressed state at the execution machine, but is compressed for transfer to its original location.

This option only applies to standard universe jobs.

fetch_files = file1, file2, ...
If your job attempts to access a file mentioned in this list, Condor will automatically copy the whole file to the executing machine, where it can be accessed quickly. When your job closes the file, it will be copied back to its original location. This list uses the same syntax as compress_files, shown above.

This option only applies to standard universe jobs.

file_remaps = < `` name = newname ; name2 = newname2 ... ''>

Directs Condor to use a new file name in place of an old one. name describes a file name that your job may attempt to open, and newname describes the file name it should be replaced with. newname may include an optional leading access specifier, local: or remote:. If left unspecified, the default access specifier is remote:. Multiple remaps can be specified by separating each with a semicolon.

This option only applies to standard universe jobs.

If you wish to remap file names that contain equals signs or semicolons, these special characters may be escaped with a backslash.

Example One:
Suppose that your job reads a file named dataset.1. To instruct Condor to force your job to read other.dataset instead, add this to the submit file:
file_remaps = "dataset.1=other.dataset"
Example Two:
Suppose that your run many jobs which all read in the same large file, called very.big. If this file can be found in the same place on a local disk in every machine in the pool, (say /bigdisk/bigfile,) you can instruct Condor of this fact by remapping very.big to /bigdisk/bigfile and specifying that the file is to be read locally, which will be much faster than reading over the network.
file_remaps = "very.big = local:/bigdisk/bigfile"
Example Three:
Several remaps can be applied at once by separating each with a semicolon.
file_remaps = "very.big = local:/bigdisk/bigfile ; dataset.1 = other.dataset"

local_files = file1, file2, ...

If your job attempts to access a file mentioned in this list, Condor will cause it to be read or written at the execution machine. This is most useful for temporary files not used for input or output. This list uses the same syntax as compress_files, shown above.

local_files = /tmp/*

This option only applies to standard universe jobs.

want_remote_io = <True | False>
This option controls how a file is opened and manipulated in a standard universe job. If this option is true, which is the default, then the condor_shadow makes all decisions about how each and every file should be opened by the executing job. This entails a network round trip (or more) from the job to the condor_shadow and back again for every single open() in addition to other needed information about the file. If set to false, then when the job queries the condor_shadow for the first time about how to open a file, the condor_shadow will inform the job to automatically perform all of its file manipulation on the local file system on the execute machine and any file remapping will be ignored. This means that there must be a shared file system (such as NFS or AFS) between the execute machine and the submit machine and that ALL paths that the job could open on the execute machine must be valid. The ability of the standard universe job to checkpoint, possibly to a checkpoint server, is not affected by this attribute. However, when the job resumes it will be expecting the same file system conditions that were present when the job checkpointed.

COMMANDS FOR THE GRID

cream_attributes = <name=value;... ;name=value>
Provides a list of attribute/value pairs to be set in a CREAM job description of a grid universe job destined for the CREAM grid system. The pairs are separated by semicolons, and written in New ClassAd syntax.

delegate_job_GSI_credentials_lifetime = <seconds>
Specifies the maximum number of seconds for which delegated proxies should be valid. The default behavior when this command is not specified is determined by the configuration variable DELEGATE_JOB_GSI_CREDENTIALS_LIFETIME , which defaults to one day. A value of 0 indicates that the delegated proxy should be valid for as long as allowed by the credential used to create the proxy. This setting currently only applies to proxies delegated for non-grid jobs and for Condor-C jobs. It does not currently apply to globus grid jobs, which always behave as though this setting were 0. This variable has no effect if the configuration variable DELEGATE_JOB_GSI_CREDENTIALS is False, because in that case the job proxy is copied rather than delegated.

deltacloud_hardware_profile = <Deltacloud profile name>
Used for deltacloud jobs. An optional identifier for the type of VM desired. If not provided, a service-defined default is used.

deltacloud_hardware_profile_cpu = <cpu details>
Used for deltacloud jobs. An optional description of the CPUs desired for the VM, overriding the selected hardware profile.

deltacloud_hardware_profile_memory = <memory details>
Used for deltacloud jobs. An optional description of the memory (RAM) desired for the VM, overriding the selected hardware profile.

deltacloud_hardware_profile_storage = <storage details>
Used for deltacloud jobs. An optional description of the storage (disk) desired for the VM, overriding the selected hardware profile.

deltacloud_image_id = <Deltacloud image ID>
Used for deltacloud jobs. Identifier of the VM image to run.

deltacloud_keyname = <Deltacloud key name>
Used for deltacloud jobs. Identifier of the SSH key pair that should be used to allow remote login to the running instance. The key pair needs to be created before submission.

deltacloud_password_file = <pathname>
Used for deltacloud jobs. Path and file name of a file containing the secret key to be used to authenticate with a Deltacloud service.

deltacloud_realm_id = <Deltacloud realm ID>
Used for deltacloud jobs. An optional identifier specifying which of multiple locations within a cloud service should be used to run the VM. If not provided, a service-selected default is used.

deltacloud_user_data = <data>
Used for deltacloud jobs. A string, representing a block of data that can be accessed by the virtual machine job inside the cloud service.

deltacloud_username = <Deltacloud username>
Used for deltacloud jobs. The user name to be used to authenticate with a Deltacloud service.

ec2_access_key_id = <pathname>
For grid type ec2 jobs, identifies the file containing the access key.

ec2_ami_id = <EC2 xMI ID>
For grid type ec2 jobs, identifies the machine image. Services compatible with the EC2 Query API may refer to these with abbreviations other than AMI, for example EMI is valid for Eucalyptus.

ec2_elastic_ip = <elastic IP address>
For grid type ec2 jobs, specifies an Elastic IP address to associate with the instance.

ec2_instance_type = <instance type>
For grid type ec2 jobs, identifies the instance type. Different services may offer different instance types, so no default value is set.

ec2_secret_access_key = <pathname>
For grid type ec2 jobs, specifies the path and file name containing the secret access key.

ec2_security_groups = group1, group2, ...
For grid type ec2 jobs, defines the list of EC2 security groups which should be associated with the job.

ec2_user_data = <data>
For grid type ec2 jobs, provides a block of data that can be accessed by the virtual machine. If both ec2_user_data and ec2_user_data_file are specified for a job, the two blocks of data are concatenated, with the data from this ec2_user_data submit command occurring first.

ec2_user_data_file = <pathname>
For grid type ec2 jobs, specifies a path and file name whose contents can be accessed by the virtual machine. If both ec2_user_data and ec2_user_data_file are specified for a job, the two blocks of data are concatenated, with the data from that ec2_user_data submit command occurring first.

ec2_tag_names = <name0,name1,name...>
For grid type ec2 jobs, specifies the case of tag names that will be associated with the running instance. This is only necessary if a tag name case matters. By default the list will be automatically generated.

ec2_tag_<name> = <value>
For grid type ec2 jobs, specifies a tag to be associated with the running instance. The tag name will be lower-cased, use ec2_tag_names to change the case.

globus_rematch = <ClassAd Boolean Expression>
This expression is evaluated by the condor_gridmanager whenever:
  1. the globus_resubmit expression evaluates to True
  2. the condor_gridmanager decides it needs to retry a submission (as when a previous submission failed to commit)
If globus_rematch evaluates to True, then before the job is submitted again to globus, the condor_gridmanager will request that the condor_schedd daemon renegotiate with the matchmaker (the condor_negotiator). The result is this job will be matched again.

globus_resubmit = <ClassAd Boolean Expression>
The expression is evaluated by the condor_gridmanager each time the condor_gridmanager gets a job ad to manage. Therefore, the expression is evaluated:
  1. when a grid universe job is first submitted to Condor-G
  2. when a grid universe job is released from the hold state
  3. when Condor-G is restarted (specifically, whenever the condor_gridmanager is restarted)
If the expression evaluates to True, then any previous submission to the grid universe will be forgotten and this job will be submitted again as a fresh submission to the grid universe. This may be useful if there is a desire to give up on a previous submission and try again. Note that this may result in the same job running more than once. Do not treat this operation lightly.

globus_rsl = <RSL-string>
Used to provide any additional Globus RSL string attributes which are not covered by other submit description file commands or job attributes. Used for grid universe jobs, where the grid resource has a grid-type-string of gt2.

grid_resource = <grid-type-string> <grid-specific-parameter-list>
For each grid-type-string value, there are further type-specific values that must specified. This submit description file command allows each to be given in a space-separated list. Allowable grid-type-string values are condor, cream, deltacloud, ec2, gt2, gt5, lsf, nordugrid, pbs, sge, and unicore. See section 5.3 for details on the variety of grid types.

For a grid-type-string of condor, the first parameter is the name of the remote condor_schedd daemon. The second parameter is the name of the pool to which the remote condor_schedd daemon belongs. See section 5.3.1 for details.

For a grid-type-string of cream, there are three parameters. The first parameter is the web services address of the CREAM server. The second parameter is the name of the batch system that sits behind the CREAM server. The third parameter identifies a site-specific queue within the batch system. See section 5.3.9 for details.

For a grid-type-string of deltacloud, the single parameter is the URL of the deltacloud service requested. See section 5.3.10 for details.

For a grid-type-string of ec2, one additional parameter specifies the EC2 URL. See section 5.3.8 for details.

For a grid-type-string of gt2, the single parameter is the name of the pre-WS GRAM resource to be used. See section 5.3.2 for details.

For a grid-type-string of gt5, the single parameter is the name of the pre-WS GRAM resource to be used, which is the same as for the grid-type-string of gt2. See section 5.3.2 for details.

For a grid-type-string of lsf, no additional parameters are used. See section 5.3.6 for details.

For a grid-type-string of nordugrid, the single parameter is the name of the NorduGrid resource to be used. See section 5.3.3 for details.

For a grid-type-string of pbs, no additional parameters are used. See section 5.3.5 for details.

For a grid-type-string of sge, no additional parameters are used. See section 5.3.7 for details.

For a grid-type-string of unicore, the first parameter is the name of the Unicore Usite to be used. The second parameter is the name of the Unicore Vsite to be used. See section 5.3.4 for details.

keystore_alias = <name>
A string to locate the certificate in a Java keystore file, as used for a unicore job.

keystore_file = <pathname>
The complete path and file name of the Java keystore file containing the certificate to be used for a unicore job.

keystore_passphrase_file = <pathname>
The complete path and file name to the file containing the passphrase protecting a Java keystore file containing the certificate. Relevant for a unicore job.

MyProxyCredentialName = <symbolic name>
The symbolic name that identifies a credential to the MyProxy server. This symbolic name is set as the credential is initially stored on the server (using myproxy-init).

MyProxyHost = <host>:<port>
The Internet address of the host that is the MyProxy server. The host may be specified by either a host name (as in head.example.com) or an IP address (of the form 123.456.7.8). The port number is an integer.

MyProxyNewProxyLifetime = <number-of-minutes>
The new lifetime (in minutes) of the proxy after it is refreshed.

MyProxyPassword = <password>
The password needed to refresh a credential on the MyProxy server. This password is set when the user initially stores credentials on the server (using myproxy-init). As an alternative to using MyProxyPassword in the submit description file, the password may be specified as a command line argument to condor_submit with the -password argument.

MyProxyRefreshThreshold = <number-of-seconds>
The time (in seconds) before the expiration of a proxy that the proxy should be refreshed. For example, if MyProxyRefreshThreshold is set to the value 600, the proxy will be refreshed 10 minutes before it expires.

MyProxyServerDN = <credential subject>
A string that specifies the expected Distinguished Name (credential subject, abbreviated DN) of the MyProxy server. It must be specified when the MyProxy server DN does not follow the conventional naming scheme of a host credential. This occurs, for example, when the MyProxy server DN begins with a user credential.

nordugrid_rsl = <RSL-string>
Used to provide any additional RSL string attributes which are not covered by regular submit description file parameters. Used when the universe is grid, and the type of grid system is nordugrid.

transfer_error = <True | False>
For jobs submitted to the grid universe only. If True, then the error output (from stderr) from the job is transferred from the remote machine back to the submit machine. The name of the file after transfer is given by the error command. If False, no transfer takes place (from the remote machine to submit machine), and the name of the file is given by the error command. The default value is True.

transfer_input = <True | False>
For jobs submitted to the grid universe only. If True, then the job input (stdin) is transferred from the machine where the job was submitted to the remote machine. The name of the file that is transferred is given by the input command. If False, then the job's input is taken from a pre-staged file on the remote machine, and the name of the file is given by the input command. The default value is True.

For transferring files other than stdin, see transfer_input_files.

transfer_output = <True | False>
For jobs submitted to the grid universe only. If True, then the output (from stdout) from the job is transferred from the remote machine back to the submit machine. The name of the file after transfer is given by the output command. If False, no transfer takes place (from the remote machine to submit machine), and the name of the file is given by the output command. The default value is True.

For transferring files other than stdout, see transfer_output_files.

x509userproxy = <full-pathname>
Used to override the default path name for X.509 user certificates. The default location for X.509 proxies is the /tmp directory, which is generally a local file system. Setting this value would allow Condor to access the proxy in a shared file system (for example, AFS). Condor will use the proxy specified in the submit description file first. If nothing is specified in the submit description file, it will use the environment variable X509_USER_CERT. If that variable is not present, it will search in the default location.

x509userproxy is relevant when the universe is vanilla, or when the universe is grid and the type of grid system is one of gt2, gt5, or nordugrid. Defining a value causes the proxy to be delegated to the execute machine. Further, VOMS attributes defined in the proxy will appear in the job ClassAd. See the unnumbered subsection labeled Job ClassAd Attributes on page [*] for all job attribute descriptions.

COMMANDS FOR PARALLEL, JAVA, and SCHEDULER UNIVERSES

hold_kill_sig = <signal-number>
For the scheduler universe only, signal-number is the signal delivered to the job when the job is put on hold with condor_hold. signal-number may be either the platform-specific name or value of the signal. If this command is not present, the value of kill_sig is used.

jar_files = <file_list>
Specifies a list of additional JAR files to include when using the Java universe. JAR files will be transferred along with the executable and automatically added to the classpath.

java_vm_args = <argument_list>
Specifies a list of additional arguments to the Java VM itself, When Condor runs the Java program, these are the arguments that go before the class name. This can be used to set VM-specific arguments like stack size, garbage-collector arguments and initial property values.

machine_count = <max>
For the parallel universe, a single value (max) is required. It is neither a maximum or minimum, but the number of machines to be dedicated toward running the job.

remove_kill_sig = <signal-number>
For the scheduler universe only, signal-number is the signal delivered to the job when the job is removed with condor_rm. signal-number may be either the platform-specific name or value of the signal. This example shows it both ways for a Linux signal:
remove_kill_sig = SIGUSR1
remove_kill_sig = 10
If this command is not present, the value of kill_sig is used.

COMMANDS FOR THE VM UNIVERSE

vm_disk = file1:device1:permission1, file2:device2:permission2:format2, ...
A list of comma separated disk files. Each disk file is specified by 4 colon separated fields. The first field is the path and file name of the disk file. The second field specifies the device. The third field specifies permissions, and the optional fourth field specifies the image format.

An example that specifies two disk files:

vm_disk = /myxen/diskfile.img:sda1:w,/myxen/swap.img:sda2:w

vm_checkpoint = <True | False>
A boolean value specifying whether or not to take checkpoints. If not specified, the default value is False. In the current implementation, setting both vm_checkpoint and vm_networking to True does not yet work in all cases. Networking cannot be used if a vm universe job uses a checkpoint in order to continue execution after migration to another machine.

vm_macaddr = <MACAddr>
Defines that MAC address that the virtual machine's network interface should have, in the standard format of six groups of two hexadecimal digits separated by colons.

vm_memory = <MBytes-of-memory>
The amount of memory in MBytes that a vm universe job requires.

vm_networking = <True | False>
Specifies whether to use networking or not. In the current implementation, setting both vm_checkpoint and vm_networking to True does not yet work in all cases. Networking cannot be used if a vm universe job uses a checkpoint in order to continue execution after migration to another machine.

vm_networking_type = <nat | bridge >
When vm_networking is True, this definition augments the job's requirements to match only machines with the specified networking. If not specified, then either networking type matches.

vm_no_output_vm = <True | False>
When True, prevents Condor from transferring output files back to the machine from which the vm universe job was submitted. If not specified, the default value is False.

vm_type = <vmware | xen | kvm>
Specifies the underlying virtual machine software that this job expects.

vmware_dir = <pathname>
The complete path and name of the directory where VMware-specific files and applications such as the VMDK (Virtual Machine Disk Format) and VMX (Virtual Machine Configuration) reside. This command is optional; when not specified, all relevant VMware image files are to be listed using transfer_input_files.

vmware_should_transfer_files = <True | False>
Specifies whether Condor will transfer VMware-specific files located as specified by vmware_dir to the execute machine (True) or rely on access through a shared file system (False). Omission of this required command (for VMware vm universe jobs) results in an error message from condor_submit, and the job will not be submitted.

vmware_snapshot_disk = <True | False>
When True, causes Condor to utilize a VMware snapshot disk for new or modified files. If not specified, the default value is True.

xen_initrd = <image-file>
When xen_kernel gives a path and file name for the kernel image to use, this optional command may specify a path to and ramdisk (initrd) image file.

xen_kernel = <included | path-to-kernel>
A value of included specifies that the kernel is included in the disk file. If not one of these values, then the value is a path and file name of the kernel to be used.

xen_kernel_params = <string>
A string that is appended to the Xen kernel command line.

xen_root = <string>
A string that is appended to the Xen kernel command line to specify the root device. This string is required when xen_kernel gives a path to a kernel. Omission for this required case results in an error message during submission.

ADVANCED COMMANDS

concurrency_limits = <string-list>
A list of resources that this job needs. The resources are presumed to have concurrency limits placed upon them, thereby limiting the number of concurrent jobs in execution which need the named resource. Commas and space characters delimit the items in the list. Each item in the list may specify a numerical value identifying the integer number of resources required for the job. The syntax follows the resource name by a colon character (:) and the numerical value. See section 3.12.14 for details on concurrency limits.

copy_to_spool = <True | False>
If copy_to_spool is True, then condor_submit copies the executable to the local spool directory before running it on a remote host. As copying can be quite time consuming and unnecessary, the default value is False for all job universes other than the standard universe. When False, condor_submit does not copy the executable to a local spool directory. The default is True in standard universe, because resuming execution from a checkpoint can only be guaranteed to work using precisely the same executable that created the checkpoint.

coresize = <size>
Should the user's program abort and produce a core file, coresize specifies the maximum size in bytes of the core file which the user wishes to keep. If coresize is not specified in the command file, the system's user resource limit coredumpsize is used. A value of -1 results in no limits being applied to the core file size.

cron_day_of_month = <Cron-evaluated Day>
The set of days of the month for which a deferral time applies. See section 2.12.2 for further details and examples.

cron_day_of_week = <Cron-evaluated Day>
The set of days of the week for which a deferral time applies. See section 2.12.2 for details, semantics, and examples.

cron_hour = <Cron-evaluated Hour>
The set of hours of the day for which a deferral time applies. See section 2.12.2 for details, semantics, and examples.

cron_minute = <Cron-evaluated Minute>
The set of minutes within an hour for which a deferral time applies. See section 2.12.2 for details, semantics, and examples.

cron_month = <Cron-evaluated Month>
The set of months within a year for which a deferral time applies. See section 2.12.2 for details, semantics, and examples.

cron_prep_time = <ClassAd Integer Expression>
Analogous to deferral_prep_time. The number of seconds prior to a job's deferral time that the job may be matched and sent to an execution machine.

cron_window = <ClassAd Integer Expression>
Analogous to the submit command deferral_window. It allows cron jobs that miss their deferral time to begin execution.

See section 2.12.1 for further details and examples.

deferral_prep_time = <ClassAd Integer Expression>
The number of seconds prior to a job's deferral time that the job may be matched and sent to an execution machine.

See section 2.12.1 for further details.

deferral_time = <ClassAd Integer Expression>
Allows a job to specify the time at which its execution is to begin, instead of beginning execution as soon as it arrives at the execution machine. The deferral time is an expression that evaluates to a Unix Epoch timestamp (the number of seconds elapsed since 00:00:00 on January 1, 1970, Coordinated Universal Time). Deferral time is evaluated with respect to the execution machine. This option delays the start of execution, but not the matching and claiming of a machine for the job. If the job is not available and ready to begin execution at the deferral time, it has missed its deferral time. A job that misses its deferral time will be put on hold in the queue.

See section 2.12.1 for further details and examples.

Due to implementation details, a deferral time may not be used for scheduler universe jobs.

deferral_window = <ClassAd Integer Expression>
The deferral window is used in conjunction with the deferral_time command to allow jobs that miss their deferral time to begin execution.

See section 2.12.1 for further details and examples.

email_attributes = <list-of-job-ad-attributes>
A comma-separated list of attributes from the job ClassAd. These attributes and their values will be included in the e-mail notification of job completion.

image_size = <size>
Advice to Condor specifying the maximum virtual image size to which the job will grow during its execution. Condor will then execute the job only on machines which have enough resources, (such as virtual memory), to support executing the job. If not specified, Condor will automatically make a (reasonably accurate) estimate about the job's size and adjust this estimate as the program runs. If specified and underestimated, the job may crash due to the inability to acquire more address space; for example, if malloc() fails. If the image size is overestimated, Condor may have difficulty finding machines which have the required resources. size is specified in Kbytes. For example, for an image size of 8 Megabytes, size should be 8000.

initialdir = <directory-path>
Used to give jobs a directory with respect to file input and output. Also provides a directory (on the machine from which the job is submitted) for the user log, when a full path is not specified.

For vanilla universe jobs where there is a shared file system, it is the current working directory on the machine where the job is executed.

For vanilla or grid universe jobs where file transfer mechanisms are utilized (there is not a shared file system), it is the directory on the machine from which the job is submitted where the input files come from, and where the job's output files go to.

For standard universe jobs, it is the directory on the machine from which the job is submitted where the condor_shadow daemon runs; the current working directory for file input and output accomplished through remote system calls.

For scheduler universe jobs, it is the directory on the machine from which the job is submitted where the job runs; the current working directory for file input and output with respect to relative path names.

Note that the path to the executable is not relative to initialdir; if it is a relative path, it is relative to the directory in which the condor_submit command is run.

job_ad_information_attrs = <attribute-list>
A comma-separated list of job ClassAd attribute names. The named attributes and their values are written to the user log whenever any event is being written to the log. This implements the same thing as the configuration variable EVENT_LOG_INFORMATION_ATTRS (see page [*]), but it applies to the user log, instead of the system event log.

job_lease_duration = <number-of-seconds>
For vanilla and java universe jobs only, the duration (in seconds) of a job lease. The default value is twenty minutes for universes that support it. If a job lease is not desired, the value can be explicitly set to 0 to disable the job lease semantics. See section 2.14.4 for details of job leases.

job_machine_attrs = <attr1, attr2, ... >
A comma and/or space separated list of machine attribute names that should be recorded in the job ClassAd in addition to the ones specified by the condor_schedd daemon's system configuration variable SYSTEM_JOB_MACHINE_ATTRS . When there are multiple run attempts, history of machine attributes from previous run attempts may be kept. The number of run attempts to store may be extended beyond the system-specified history length by using the submit file command job_machine_attrs_history_length. A machine attribute named X will be inserted into the job ClassAd as an attribute named MachineAttrX0. The previous value of this attribute will be named MachineAttrX1, the previous to that will be named MachineAttrX2, and so on, up to the specified history length. A history of length 1 means that only MachineAttrX0 will be recorded. The value recorded in the job ClassAd is the evaluation of the machine attribute in the context of the job ClassAd when the condor_schedd daemon initiates the start up of the job. If the evaluation results in an Undefined or Error result, the value recorded in the job ad will be Undefined or Error, respectively.

want_graceful_removal = <boolean expression>
When True, this causes a graceful shutdown of the job when the job is removed or put on hold, giving it time to clean up or save state. Otherwise, the job is abruptly killed. The default is false.

kill_sig = <signal-number>
When Condor needs to kick a job off of a machine, it will send the job the signal specified by signal-number. signal-number needs to be an integer which represents a valid signal on the execution machine. For jobs submitted to the standard universe, the default value is the number for SIGTSTP which tells the Condor libraries to initiate a checkpoint of the process. For jobs submitted to other universes, the default value, when not defined, is SIGTERM, which is the standard way to terminate a program in Unix.

kill_sig_timeout = <seconds>
This submit command should no longer be used as of Condor version 7.7.3; use job_max_vacate_time instead. If job_max_vacate_time is not defined, this defines the number of seconds that Condor should wait following the sending of the kill signal defined by kill_sig and forcibly killing the job. The actual amount of time between sending the signal and forcibly killing the job is the smallest of this value and the configuration variable KILLING_TIMEOUT , as defined on the execute machine.

load_profile = <True | False>
When True, loads the account profile of the dedicated run account for Windows jobs. May not be used with run_as_owner.

match_list_length = <integer value>
Defaults to the value zero (0). When match_list_length is defined with an integer value greater than zero (0), attributes are inserted into the job ClassAd. The maximum number of attributes defined is given by the integer value. The job ClassAds introduced are given as
LastMatchName0 = "most-recent-Name"
LastMatchName1 = "next-most-recent-Name"

The value for each introduced ClassAd is given by the value of the Name attribute from the machine ClassAd of a previous execution (match). As a job is matched, the definitions for these attributes will roll, with LastMatchName1 becoming LastMatchName2, LastMatchName0 becoming LastMatchName1, and LastMatchName0 being set by the most recent value of the Name attribute.

An intended use of these job attributes is in the requirements expression. The requirements can allow a job to prefer a match with either the same or a different resource than a previous match.

job_max_vacate_time = <integer expression>
An integer-valued expression (in seconds) that may be used to adjust the time given to an evicted job for gracefully shutting down. If the job's setting is less than the machine's, the job's is used. If the job's setting is larger than the machine's, the result depends on whether the job has any excess retirement time. If the job has more retirement time left than the machine's max vacate time setting, then retirement time will be converted into vacating time, up to the amount requested by the job.

Setting this expression does not affect the job's resource requirements or preferences. For a job to only run on a machine with a minimum MachineMaxVacateTime, or to preferentially run on such machines, explicitly specify this in the requirements and/or rank expressions.

max_job_retirement_time = <integer expression>
An integer-valued expression (in seconds) that does nothing unless the machine that runs the job has been configured to provide retirement time (see section 3.5.8). Retirement time is a grace period given to a job to finish when a resource claim is about to be preempted. The default behavior in many cases is to take as much retirement time as the machine offers, so this command will rarely appear in a submit description file.

When a resource claim is to be preempted, this expression in the submit file specifies the maximum run time of the job (in seconds, since the job started). This expression has no effect, if it is greater than the maximum retirement time provided by the machine policy. If the resource claim is not preempted, this expression and the machine retirement policy are irrelevant. If the resource claim is preempted the job will be allowed to run until the retirement time expires, at which point it is hard-killed. The job will be soft-killed when it is getting close to the end of retirement in order to give it time to gracefully shut down. The amount of lead-time for soft-killing is determined by the maximum vacating time granted to the job.

Standard universe jobs and any jobs running with nice_user priority have a default max_job_retirement_time of 0, so no retirement time is utilized by default. In all other cases, no default value is provided, so the maximum amount of retirement time is utilized by default.

Setting this expression does not affect the job's resource requirements or preferences. For a job to only run on a machine with a minimum MaxJobRetirementTime, or to preferentially run on such machines, explicitly specify this in the requirements and/or rank expressions.

nice_user = <True | False>
Normally, when a machine becomes available to Condor, Condor decides which job to run based upon user and job priorities. Setting nice_user equal to True tells Condor not to use your regular user priority, but that this job should have last priority among all users and all jobs. So jobs submitted in this fashion run only on machines which no other non-nice_user job wants -- a true ``bottom-feeder'' job! This is very handy if a user has some jobs they wish to run, but do not wish to use resources that could instead be used to run other people's Condor jobs. Jobs submitted in this fashion have ``nice-user.'' pre-appended in front of the owner name when viewed from condor_q or condor_userprio. The default value is False.

noop_job = <ClassAd Boolean Expression>
When this boolean expression is True, the job is immediately removed from the queue, and Condor makes no attempt at running the job. The log file for the job will show a job submitted event and a job terminated event, along with an exit code of 0, unless the user specifies a different signal or exit code.

noop_job_exit_code = <return value>
When noop_job is in the submit description file and evaluates to True, this command allows the job to specify the return value as shown in the job's log file job terminated event. If not specified, the job will show as having terminated with status 0. This overrides any value specified with noop_job_exit_signal.

noop_job_exit_signal = <signal number>
When noop_job is in the submit description file and evaluates to True, this command allows the job to specify the signal number that the job's log event will show the job having terminated with.

remote_initialdir = <directory-path>
The path specifies the directory in which the job is to be executed on the remote machine. This is currently supported in all universes except for the standard universe.

rendezvousdir = <directory-path>
Used to specify the shared file system directory to be used for file system authentication when submitting to a remote scheduler. Should be a path to a preexisting directory.

run_as_owner = <True | False>
A boolean value that causes the job to be run under the login of the submitter, if supported by the joint configuration of the submit and execute machines. On Unix platforms, this defaults to True, and on Windows platforms, it defaults to False. May not be used with load_profile. See section 6.2.4 for administrative details on configuring Windows to support this option, as well as section 3.3.7 on page [*] for a definition of STARTER_ALLOW_RUNAS_OWNER.

stack_size = <size in bytes>
This command applies only to Linux platform jobs that are not standard universe jobs. An integer number of bytes, representing the amount of stack space to be allocated for the job. This value replaces the default allocation of stack space, which is unlimited in size.

submit_event_notes = <note>
A string that is appended to the submit event in the job's log file. For DAGMan jobs, the string DAG Node: and the node's name is automatically defined for submit_event_notes, causing the logged submit event to identify the DAG node job submitted.

+<attribute> = <value>
A line which begins with a '+' (plus) character instructs condor_submit to insert the following attribute into the job ClassAd with the given value.

PRE AND POST SCRIPTS IMPLEMENTED WITH SPECIALLY-NAMED ATTRIBUTES

+PreCmd = <executable>
A vanilla universe job may specify that a script is to be run on the execute machine before the job, and this is called a prescript. Definition of this specifically-named attribute causes the script, identified by path and file name to be executed. The prescript could prepare or initialize the job. Note that this definition of a prescript is different from the PRE script described in DAGMan. The prescript is not automatically transferred with the job, as the main executable is, so it must be entered into the transfer_input_files list, when file transfer is enabled.

+PostCmd = <executable>
A vanilla universe job may specify that a script is to be run on the execute machine after the job exits, and this is called a postscript. Definition of this specifically-named attribute causes the script, identified by path and file name to be executed. The postscript is run if the job exits, but not if the job is evicted. Note that this definition of a postscript is different from the POST script described in DAGMan. The postscript is not automatically transferred with the job, as the main executable is, so it must be entered into the transfer_input_files list, when file transfer is enabled.

In addition to commands, the submit description file can contain macros and comments:

Macros
Parameterless macros in the form of $(macro_name) may be inserted anywhere in Condor submit description files. Macros can be defined by lines in the form of
 
        <macro_name> = <string>
Three pre-defined macros are supplied by the submit description file parser. The third of the pre-defined macros is only relevant to MPI applications under the parallel universe. The $(Cluster) macro supplies the value of the ClusterId job ClassAd attribute, and the $(Process) macro supplies the value of the ProcId job ClassAd attribute. These macros are intended to aid in the specification of input/output files, arguments, etc., for clusters with lots of jobs, and/or could be used to supply a Condor process with its own cluster and process numbers on the command line. The $(Node) macro is defined for MPI applications run as parallel universe jobs. It is a unique value assigned for the duration of the job that essentially identifies the machine on which a program is executing.

To use the dollar sign character ($) as a literal, without macro expansion, use

$(DOLLAR)

In addition to the normal macro, there is also a special kind of macro called a substitution macro that allows the substitution of a ClassAd attribute value defined on the resource machine itself (gotten after a match to the machine has been made) into specific commands within the submit description file. The substitution macro is of the form:

 
$$(attribute)

A common use of this macro is for the heterogeneous submission of an executable:

executable = povray.$$(opsys).$$(arch)
Values for the opsys and arch attributes are substituted at match time for any given resource. This allows Condor to automatically choose the correct executable for the matched machine.

An extension to the syntax of the substitution macro provides an alternative string to use if the machine attribute within the substitution macro is undefined. The syntax appears as:

 
$$(attribute:string_if_attribute_undefined)

An example using this extended syntax provides a path name to a required input file. Since the file can be placed in different locations on different machines, the file's path name is given as an argument to the program.

 
argument = $$(input_file_path:/usr/foo)
On the machine, if the attribute input_file_path is not defined, then the path /usr/foo is used instead.

A further extension to the syntax of the substitution macro allows the evaluation of a ClassAd expression to define the value. As all substitution macros, the expression is evaluated after a match has been made. Therefore, the expression may refer to machine attributes by prefacing them with the scope resolution prefix TARGET., as specified in section 4.1.3. To place a ClassAd expression into the substitution macro, square brackets are added to delimit the expression. The syntax appears as:

 
$$([ClassAd expression])
An example of a job that uses this syntax may be one that wants to know how much memory it can use. The application cannot detect this itself, as it would potentially use all of the memory on a multi-slot machine. So the job determines the memory per slot, reducing it by 10% to account for miscellaneous overhead, and passes this as a command line argument to the application. In the submit description file will be
 
arguments=--memory $$([TARGET.Memory * 0.9])

To insert two dollar sign characters ($$) as literals into a ClassAd string, use

$$(DOLLARDOLLAR)

The environment macro, $ENV, allows the evaluation of an environment variable to be used in setting a submit description file command. The syntax used is

 
$ENV(variable)
An example submit description file command that uses this functionality evaluates the submitter's home directory in order to set the path and file name of a log file:
 
log = $ENV(HOME)/jobs/logfile
The environment variable is evaluated when the submit description file is processed.

The $RANDOM_CHOICE macro allows a random choice to be made from a given list of parameters at submission time. For an expression, if some randomness needs to be generated, the macro may appear as

 
    $RANDOM_CHOICE(0,1,2,3,4,5,6)
When evaluated, one of the parameters values will be chosen.

Comments
Blank lines and lines beginning with a pound sign ('#') character are ignored by the submit description file parser.

Exit Status

condor_submit will exit with a status value of 0 (zero) upon success, and a non-zero value upon failure.

Examples

General Remarks

See Also

Condor User Manual

Author

Condor Team, University of Wisconsin-Madison

Copyright

Copyright © 1990-2012 Condor Team, Computer Sciences Department, University of Wisconsin-Madison, Madison, WI. All Rights Reserved. Licensed under the Apache License, Version 2.0.

See the Condor Version 7.7.6 Manual or http://www.condorproject.org/license for additional notices.


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