Provided by: libslurm-dev_2.6.5-1_amd64 bug

NAME

       slurm_allocate_resources,                               slurm_allocate_resources_blocking,
       slurm_allocation_msg_thr_create,                         slurm_allocation_msg_thr_destroy,
       slurm_allocation_lookup,      slurm_allocation_lookup_lite,      slurm_confirm_allocation,
       slurm_free_submit_response_response_msg,   slurm_init_job_desc_msg,    slurm_job_will_run,
       slurm_read_hostfile, slurm_submit_batch_job - Slurm job initiation functions

SYNTAX

       #include <slurm/slurm.h>

       int slurm_allocate_resources (
            job_desc_msg_t *job_desc_msg_ptr,
            resource_allocation_response_msg_t **slurm_alloc_msg_pptr
       );

       resource_allocation_response_msg_t *slurm_allocate_resources_blocking (
            job_desc_msg_t *job_desc_msg_ptr,
            time_t timeout, void (*pending_callback)(uint32_t job_id)
       );

       allocation_msg_thread_t *slurm_allocation_msg_thr_create (
            uint16_t *port,
            slurm_allocation_callbacks_t *callbacks
       );

       void *slurm_allocation_msg_thr_destroy (
            allocation_msg_thread_t *slurm_alloc_msg_thr_ptr
       );

       int slurm_allocation_lookup {
            uint32_t jobid,
            resource_allocation_response_msg_t **slurm_alloc_msg_pptr
       );

       int slurm_allocation_lookup_lite {
            uint32_t jobid,
            resource_allocation_response_msg_t **slurm_alloc_msg_pptr
       );

       int slurm_confirm_allocation (
            old_job_alloc_msg_t *old_job_desc_msg_ptr,
            resource_allocation_response_msg_t **slurm_alloc_msg_pptr
       );

       void slurm_free_resource_allocation_response_msg (
            resource_allocation_response_msg_t *slurm_alloc_msg_ptr
       );

       void slurm_free_submit_response_response_msg (
            submit_response_msg_t *slurm_submit_msg_ptr
       );

       void slurm_init_job_desc_msg (
            job_desc_msg_t *job_desc_msg_ptr
       );

       int slurm_job_will_run (
            job_desc_msg_t *job_desc_msg_ptr,
       );

       int slurm_read_hostfile (
            char *filename, int n
       );

       int slurm_submit_batch_job (
            job_desc_msg_t *job_desc_msg_ptr,
            submit_response_msg_t **slurm_submit_msg_pptr
       );

ARGUMENTS

       job_desc_msg_ptr
              Specifies  the pointer to a job request specification. See slurm.h for full details
              on the data structure's contents.

       callbacks
              Specifies the pointer to a allocation callbacks structure.  See  slurm.h  for  full
              details on the data structure's contents.

       old_job_desc_msg_ptr
              Specifies  the  pointer  to  a description of an existing job. See slurm.h for full
              details on the data structure's contents.

       slurm_alloc_msg_pptr
              Specifies the double pointer to the structure to  be  created  and  filled  with  a
              description  of  the  created  resource allocation (job): job ID, list of allocated
              nodes, processor count per allocated node, etc. See slurm.h for full details on the
              data structure's contents.

       slurm_alloc_msg_ptr
              Specifies  the pointer to the structure to be created and filled in by the function
              slurm_allocate_resources,                        slurm_allocate_resources_blocking,
              slurm_allocation_lookup,  slurm_allocation_lookup_lite, slurm_confirm_allocation or
              slurm_job_will_run.

       slurm_alloc_msg_thr_ptr
              Specigies the pointer to  the  structure  created  and  returned  by  the  function
              slurm_allocation_msg_thr_create.      Must     be     destroyed    with    function
              slurm_allocation_msg_thr_destroy.

       slurm_submit_msg_pptr
              Specifies the double pointer to the structure to  be  created  and  filled  with  a
              description  of  the  created job: job ID, etc. See slurm.h for full details on the
              data structure's contents.

       slurm_submit_msg_ptr
              Specifies the pointer to the structure to be created and filled in by the  function
              slurm_submit_batch_job.

DESCRIPTION

       slurm_allocate_resources  Request  a  resource  allocation for a job. If successful, a job
       entry is created. Note that if the job's requested  node  count  or  time  allocation  are
       outside  of  the partition's limits then a job entry will be created, a warning indication
       will be placed in the error_code field of the response message, and the job will  be  left
       queued until the partition's limits are changed.  Always release the response message when
       no longer required using the function  slurm_free_resource_allocation_response_msg.   This
       function  only makes the request once.  If the allocation is not available immediately the
       node_cnt variable in the resp will be 0.  If you want a function  that  will  block  until
       either   an   error   is   received   or   an  allocation  is  granted  you  can  use  the
       slurm_allocate_resources_blocking function described below.

       slurm_allocate_resources_blocking Request a resource allocation for a job.  This call will
       block  until the allocation is granted, an error occurs, or the specified timeout limit is
       reached.  The pending_callback parameter will be called if the allocation is not available
       immediately and the immediate flag is not set in the request.  This can be used to get the
       jobid of the job while waiting for the allocation to become available.  On failure NULL is
       returned and errno is set.

       slurm_allocation_msg_thr_create  Startup  a  message  handler  talking with the controller
       dealing with messages from the controller during an  allocation.  Callback  functions  are
       declared  in  the  callbacks  parameter and will be called when a corresponding message is
       received from the controller.  This message thread is needed to receive messages from  the
       controller  about  node  failure  in an allocation and other important messages.  Although
       technically not required, it could be very helpful  to  inform  about  problems  with  the
       allocation.

       slurm_allocation_msg_thr_destroy Shutdown the message handler
        talking with the controller dealing with messages from the controller during
        an allocation.

       slurm_confirm_allocation   Return   detailed   information  on  a  specific  existing  job
       allocation. OBSOLETE FUNCTION: Use slurm_allocation_lookup instead. This function may only
       be successfully executed by the job's owner or user root.

       slurm_free_resource_allocation_response_msg Release the storage generated in response to a
       call   of   the    function    slurm_allocate_resources,    slurm_allocation_lookup,    or
       slurm_allocation_lookup_lite.

       slurm_free_submit_response_msg  Release the storage generated in response to a call of the
       function slurm_submit_batch_job.

       slurm_init_job_desc_msg Initialize the contents of a job descriptor with  default  values.
       Execute this function before issuing a request to submit or modify a job.

       slurm_job_will_run   Determine   if   the  supplied  job  description  could  be  executed
       immediately.

       slurm_read_hostfile Read a  SLURM  hostfile  specified  by  "filename".   "filename"  must
       contain a list of SLURM NodeNames, one per line.  Reads up to "n" number of hostnames from
       the file. Returns a string representing a hostlist ranged string of the  contents  of  the
       file.  This is a helper function, it does not contact any SLURM daemons.

       slurm_submit_batch_job  Submit a job for later execution. Note that if the job's requested
       node count or time allocation are outside of the partition's limits then a job entry  will
       be  created,  a  warning indication will be placed in the error_code field of the response
       message, and the job will be left queued until the  partition's  limits  are  changed  and
       resources  are  available.   Always  release  the response message when no longer required
       using the function slurm_free_submit_response_msg.

RETURN VALUE

       On success, zero is returned. On error, -1 is  returned,  and  Slurm  error  code  is  set
       appropriately.

ERRORS

       SLURM_PROTOCOL_VERSION_ERROR Protocol version has changed, re-link your code.

       ESLURM_CAN_NOT_START_IMMEDIATELY the job can not be started immediately as requested.

       ESLURM_DEFAULT_PARTITION_NOT_SET the system lacks a valid default partition.

       ESLURM_JOB_MISSING_PARTITION_KEY  use of this partition is restricted through a credential
       provided only to user root. This job lacks such a valid credential.

       ESLURM_JOB_MISSING_REQUIRED_PARTITION_GROUP use of this partition is restricted to certain
       groups. This user is not a member of an authorized group.

       ESLURM_REQUESTED_NODES_NOT_IN_PARTITION  the job requested use of specific nodes which are
       not in the requested (or default) partition.

       ESLURM_TOO_MANY_REQUESTED_CPUS the job requested use of more processors than can  be  made
       available to in the requested (or default) partition.

       ESLURM_TOO_MANY_REQUESTED_NODES  the  job  requested  use  of  more nodes than can be made
       available to in the requested (or default) partition.

       ESLURM_ERROR_ON_DESC_TO_RECORD_COPY unable to create the job  due  to  internal  resources
       being exhausted. Try again later.

       ESLURM_JOB_MISSING_SIZE_SPECIFICATION  the  job failed to specify some size specification.
       At least one of the following must be supplied: required processor  count,  required  node
       count, or required node list.

       ESLURM_JOB_SCRIPT_MISSING failed to identify executable program to be queued.

       ESLURM_USER_ID_MISSING identification of the job's owner was not provided.

       ESLURM_DUPLICATE_JOB_ID the requested job id is already in use.

       ESLURM_NOT_TOP_PRIORITY  job  can  not be started immediately because higher priority jobs
       are waiting to use this partition.

       ESLURM_REQUESTED_NODE_CONFIG_UNAVAILABLE the requested node configuration is not available
       (at least not in sufficient quantity) to satisfy the request.

       ESLURM_REQUESTED_PART_CONFIG_UNAVAILABLE  the  requested  partition  configuration  is not
       available to satisfy the request. This is not a fatal error, but indicates  that  the  job
       will  be  left  queued  until  the  partition's  configuration  is changed. This typically
       indicates that the job's requested node count is outside  of  the  node  count  range  its
       partition  is  configured  to  support (e.g. the job wants 64 nodes and the partition will
       only schedule jobs using between 1 and  32  nodes).  Alternately,  the  job's  time  limit
       exceeds the partition's time limit.

       ESLURM_NODES_BUSY the requested nodes are already in use.

       ESLURM_INVALID_FEATURE the requested feature(s) does not exist.

       ESLURM_INVALID_JOB_ID the requested job id does not exist.

       ESLURM_INVALID_NODE_NAME the requested node name(s) is/are not valid.

       ESLURM_INVALID_PARTITION_NAME the requested partition name is not valid.

       ESLURM_TRANSITION_STATE_NO_UPDATE  the  requested  job  configuration  change can not take
       place at this time. Try again later.

       ESLURM_ALREADY_DONE the specified job has already completed and can not be modified.

       ESLURM_ACCESS_DENIED the requesting user lacks  authorization  for  the  requested  action
       (e.g. trying to delete or modify another user's job).

       ESLURM_INTERCONNECT_FAILURE failed to configure the node interconnect.

       ESLURM_BAD_DIST task distribution specification is invalid.

       SLURM_PROTOCOL_SOCKET_IMPL_TIMEOUT Timeout in communicating with SLURM controller.

NON-BLOCKING EXAMPLE

       #include <stdio.h>
       #include <stdlib.h>
       #include <signal.h>
       #include <slurm/slurm.h>
       #include <slurm/slurm_errno.h>

       int main (int argc, char *argv[])
       {
            job_desc_msg_t job_desc_msg;
            resource_allocation_response_msg_t* slurm_alloc_msg_ptr ;

            slurm_init_job_desc_msg( &job_desc_msg );
            job_desc_msg. name = ("job01 ");
            job_desc_msg. job_min_memory = 1024;
            job_desc_msg. time_limit = 200;
            job_desc_msg. min_nodes = 400;
            job_desc_msg. user_id = getuid();
            job_desc_msg. group_id = getgid();
            if (slurm_allocate_resources(&job_desc_msg,
                                         &slurm_alloc_msg_ptr)) {
                 slurm_perror ("slurm_allocate_resources error");
                 exit (1);
            }
            printf ("Allocated nodes %s to job_id %u\n",
                    slurm_alloc_msg_ptr->node_list,
                    slurm_alloc_msg_ptr->job_id );
            if (slurm_kill_job(slurm_alloc_msg_ptr->job_id, SIGKILL, 0)) {
                 printf ("kill errno %d\n", slurm_get_errno());
                 exit (1);
            }
            printf ("canceled job_id %u\n",
                    slurm_alloc_msg_ptr->job_id );
            slurm_free_resource_allocation_response_msg(
                      slurm_alloc_msg_ptr);
            exit (0);
       }

BLOCKING EXAMPLE

       #include <stdio.h>
       #include <stdlib.h>
       #include <signal.h>
       #include <slurm/slurm.h>
       #include <slurm/slurm_errno.h>

       int main (int argc, char *argv[])
       {
            job_desc_msg_t job_desc_msg;
            resource_allocation_response_msg_t* slurm_alloc_msg_ptr ;

            slurm_init_job_desc_msg( &job_desc_msg );
            job_desc_msg. name = ("job01 ");
            job_desc_msg. job_min_memory = 1024;
            job_desc_msg. time_limit = 200;
            job_desc_msg. min_nodes = 400;
            job_desc_msg. user_id = getuid();
            job_desc_msg. group_id = getgid();
            if (!(slurm_alloc_msg_ptr =
                  slurm_allocate_resources_blocking(&job_desc_msg, 0, NULL))) {
                 slurm_perror ("slurm_allocate_resources_blocking error");
                 exit (1);
            }
            printf ("Allocated nodes %s to job_id %u\n",
                    slurm_alloc_msg_ptr->node_list,
                    slurm_alloc_msg_ptr->job_id );
            if (slurm_kill_job(slurm_alloc_msg_ptr->job_id, SIGKILL, 0)) {
                 printf ("kill errno %d\n", slurm_get_errno());
                 exit (1);
            }
            printf ("canceled job_id %u\n",
                    slurm_alloc_msg_ptr->job_id );
            slurm_free_resource_allocation_response_msg(
                      slurm_alloc_msg_ptr);
            exit (0);
       }

NOTE

       These functions are included in the libslurm library, which must be linked to your process
       for use (e.g. "cc -lslurm myprog.c").

COPYING

       Copyright (C) 2002-2006 The Regents of the University of California.  Produced at Lawrence
       Livermore National Laboratory (cf, DISCLAIMER).  CODE-OCEC-09-009. All rights reserved.

       This   file   is  part  of  SLURM,  a  resource  management  program.   For  details,  see
       <http://slurm.schedmd.com/>.

       SLURM is free software; you can redistribute it and/or modify it under the  terms  of  the
       GNU  General Public License as published by the Free Software Foundation; either version 2
       of the License, or (at your option) any later version.

       SLURM is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without
       even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
       GNU General Public License for more details.

SEE ALSO

       hostlist_create(3),   hostlist_shift(3),   hostlist_destroy(3),    scancel(1),    srun(1),
       slurm_free_job_info_msg(3),   slurm_get_errno(3),   slurm_load_jobs(3),   slurm_perror(3),
       slurm_strerror(3)