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/****************************************************************************\
* slurm_protocol_pack.c - functions to pack and unpack structures for RPCs
*****************************************************************************
* Copyright (C) 2002 The Regents of the University of California.
* Produced at Lawrence Livermore National Laboratory (cf, DISCLAIMER).
* Written by Kevin Tew <tew1@llnl.gov> et. al.
* UCRL-CODE-2002-040.
*
* This file is part of SLURM, a resource management program.
* For details, see <http://www.llnl.gov/linux/slurm/>.
*
* 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.
*
* You should have received a copy of the GNU General Public License along
* with SLURM; if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
\*****************************************************************************/
#include <stdio.h>
#include <errno.h>
#include <string.h>
#include <src/common/bitstring.h>
#include <src/common/slurm_protocol_pack.h>
#include <src/common/slurm_auth.h>
#include <src/common/log.h>
void pack_job_credential ( slurm_job_credential_t* cred , Buf buffer );
int unpack_job_credential( slurm_job_credential_t** msg , Buf buffer );
/* pack_header
* packs a slurm protocol header that proceeds every slurm message
* header - the header structure to pack
* buffer - destination of the pack, contains pointers that are automatically updated
void pack_header ( header_t * header, Buf buffer )
pack16 ( header -> version , buffer ) ;
pack16 ( header -> flags , buffer ) ;
pack16 ( (uint16_t)header -> cred_type , buffer ) ;
pack32 ( header -> cred_length , buffer ) ;
pack16 ( (uint16_t)header -> msg_type , buffer ) ;
pack32 ( header -> body_length , buffer ) ;
/* unpack_header
* unpacks a slurm protocol header that proceeds every slurm message
* header - the header structure to unpack
* buffer - destination of the pack, contains pointers that are automatically updated
void unpack_header ( header_t * header , Buf buffer )
unpack16 ( & header -> version , buffer ) ;
unpack16 ( & header -> flags , buffer ) ;
unpack16 ( & tmp , buffer ) ;
header -> cred_type = (slurm_credential_type_t ) tmp ;
unpack32 ( & header -> cred_length , buffer ) ;
unpack16 ( & tmp , buffer ) ;
header -> msg_type = (slurm_msg_type_t ) tmp ;
unpack32 ( & header -> body_length , buffer ) ;
/* SLURM_IO_HEADER_SIZE is the packed data structure size, *\
\* not necessarily sizeof(slurm_io_stream_header_t) */
void pack_io_stream_header ( slurm_io_stream_header_t * msg , Buf buffer )
uint32_t tmp=SLURM_SSL_SIGNATURE_LENGTH;
pack16( msg->version, buffer ) ;
packmem_array( msg->key, tmp, buffer ) ;
pack32( msg->task_id, buffer ) ;
pack16( msg->type, buffer ) ;
void unpack_io_stream_header ( slurm_io_stream_header_t * msg , Buf buffer )
uint32_t tmp=SLURM_SSL_SIGNATURE_LENGTH;
unpack16( & msg->version, buffer ) ;
unpackmem_array( msg->key, tmp , buffer ) ;
unpack32( & msg->task_id, buffer ) ;
unpack16( & msg->type, buffer ) ;
/* pack_msg
* packs a slurm protocol mesg body
* header - the body structure to pack
* buffer - destination of the pack, contains pointers that are automatically updated
int pack_msg ( slurm_msg_t const * msg , Buf buffer )
switch ( msg -> msg_type )
case REQUEST_BUILD_INFO :
case REQUEST_NODE_INFO :
case REQUEST_PARTITION_INFO :
case REQUEST_ACCTING_INFO :
pack_last_update ( ( last_update_msg_t * ) msg -> data , buffer ) ;
break;
case RESPONSE_BUILD_INFO:
pack_slurm_ctl_conf ( ( slurm_ctl_conf_info_msg_t * ) msg -> data , buffer ) ;
pack_job_info_msg ( ( slurm_msg_t * ) msg , buffer ) ;
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case RESPONSE_PARTITION_INFO:
pack_partition_info_msg ( ( slurm_msg_t * ) msg , buffer ) ;
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break ;
pack_node_info_msg ( ( slurm_msg_t * ) msg , buffer ) ;
pack_node_registration_status_msg ( ( slurm_node_registration_status_msg_t * ) msg -> data , buffer );
break ;
case REQUEST_RESOURCE_ALLOCATION :
case REQUEST_SUBMIT_BATCH_JOB :
case REQUEST_IMMEDIATE_RESOURCE_ALLOCATION :
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case REQUEST_ALLOCATION_AND_RUN_JOB_STEP :
pack_job_desc ( (job_desc_msg_t * ) msg -> data , buffer ) ;
case REQUEST_RECONFIGURE :
case REQUEST_SHUTDOWN_IMMEDIATE :
/* Message contains no body/information */
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case REQUEST_SHUTDOWN :
pack_shutdown_msg ( (shutdown_msg_t *) msg -> data, buffer ) ;
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break;
case RESPONSE_SUBMIT_BATCH_JOB:
pack_submit_response_msg ( ( submit_response_msg_t * ) msg -> data , buffer ) ;
break ;
case RESPONSE_RESOURCE_ALLOCATION :
case RESPONSE_IMMEDIATE_RESOURCE_ALLOCATION :
pack_resource_allocation_response_msg ( ( resource_allocation_response_msg_t * ) msg -> data ,
buffer ) ;
break ;
case RESPONSE_ALLOCATION_AND_RUN_JOB_STEP :
pack_resource_allocation_and_run_response_msg ( ( resource_allocation_and_run_response_msg_t * ) msg -> data ,
buffer ) ;
pack_job_desc ( (job_desc_msg_t * ) msg -> data , buffer ) ;
pack_update_node_msg ( ( update_node_msg_t * ) msg-> data , buffer ) ;
pack_update_partition_msg ( ( update_part_msg_t * ) msg->data , buffer ) ;
case REQUEST_REATTACH_TASKS_STREAMS :
pack_reattach_tasks_streams_msg ( ( reattach_tasks_streams_msg_t * ) msg->data , buffer ) ;
pack_launch_tasks_request_msg ( ( launch_tasks_request_msg_t * ) msg->data , buffer ) ;
case RESPONSE_LAUNCH_TASKS :
pack_launch_tasks_response_msg ( ( launch_tasks_response_msg_t * ) msg->data , buffer ) ;
pack_cancel_tasks_msg ( ( kill_tasks_msg_t * ) msg->data , buffer ) ;
pack_get_job_step_info ( ( job_step_info_request_msg_t * ) msg->data , buffer ) ;
/******** job_step_id_t Messages ********/
case REQUEST_JOB_INFO :
case REQUEST_COMPLETE_JOB_STEP :
pack_job_step_id ( ( job_step_id_t * ) msg->data , buffer ) ;
pack_revoke_credential_msg ( ( revoke_credential_msg_t * ) msg->data , buffer ) ;
case REQUEST_SIGNAL_JOB :
break ;
case REQUEST_SIGNAL_JOB_STEP :
break ;
case RESPONSE_RECONFIGURE :
case RESPONSE_CANCEL_JOB_STEP :
case RESPONSE_COMPLETE_JOB_STEP :
case RESPONSE_SIGNAL_JOB :
case RESPONSE_SIGNAL_JOB_STEP :
break ;
case REQUEST_JOB_ATTACH :
break ;
case RESPONSE_JOB_ATTACH :
break ;
pack_job_step_info_msg( ( slurm_msg_t * ) msg , buffer ) ;
break ;
case REQUEST_JOB_RESOURCE :
break ;
case RESPONSE_JOB_RESOURCE :
break ;
case REQUEST_RUN_JOB_STEP :
break ;
case RESPONSE_RUN_JOB_STEP:
break ;
case MESSAGE_TASK_EXIT :
pack_task_exit_msg ( ( task_exit_msg_t * ) msg -> data , buffer ) ;
break ;
case REQUEST_BATCH_JOB_LAUNCH :
pack_batch_job_launch ( ( batch_job_launch_msg_t * ) msg -> data , buffer ) ;
break ;
case MESSAGE_UPLOAD_ACCOUNTING_INFO :
break ;
pack_return_code ( ( return_code_msg_t * ) msg -> data , buffer ) ;
case RESPONSE_JOB_STEP_CREATE:
pack_job_step_create_response_msg(( job_step_create_response_msg_t * ) msg -> data , buffer ) ;
break;
case REQUEST_JOB_STEP_CREATE:
pack_job_step_create_request_msg(( job_step_create_request_msg_t * ) msg -> data , buffer ) ;
debug ( "No pack method for msg type %i", msg -> msg_type ) ;
/* unpack_msg
* unpacks a slurm protocol msg body
* header - the body structure to unpack
* buffer - source of the unpack, contains pointers that are automatically updated
int unpack_msg ( slurm_msg_t * msg , Buf buffer )
case REQUEST_BUILD_INFO :
case REQUEST_NODE_INFO :
case REQUEST_PARTITION_INFO :
case REQUEST_ACCTING_INFO :
unpack_last_update ( ( last_update_msg_t **) &(msg -> data) , buffer ) ;
break;
case RESPONSE_BUILD_INFO:
unpack_slurm_ctl_conf ( ( slurm_ctl_conf_info_msg_t ** ) &(msg -> data) , buffer ) ;
break;
unpack_job_info_msg ( ( job_info_msg_t ** ) &(msg -> data) , buffer ) ;
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case RESPONSE_PARTITION_INFO:
unpack_partition_info_msg ( ( partition_info_msg_t ** ) &(msg -> data) , buffer ) ;
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break;
unpack_node_info_msg ( ( node_info_msg_t ** ) &(msg -> data) , buffer) ;
unpack_node_registration_status_msg ( ( slurm_node_registration_status_msg_t ** ) &( msg -> data ), buffer );
break ;
case REQUEST_RESOURCE_ALLOCATION :
case REQUEST_SUBMIT_BATCH_JOB :
case REQUEST_IMMEDIATE_RESOURCE_ALLOCATION :
case REQUEST_ALLOCATION_AND_RUN_JOB_STEP :
unpack_job_desc ( ( job_desc_msg_t **) & ( msg-> data ), buffer ) ;
case REQUEST_RECONFIGURE :
case REQUEST_SHUTDOWN_IMMEDIATE :
/* Message contains no body/information */
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case REQUEST_SHUTDOWN :
unpack_shutdown_msg ( ( shutdown_msg_t **) & ( msg-> data ), buffer ) ;
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committed
break ;
case RESPONSE_SUBMIT_BATCH_JOB :
unpack_submit_response_msg ( ( submit_response_msg_t ** ) & ( msg -> data ) , buffer ) ;
break ;
case RESPONSE_RESOURCE_ALLOCATION :
case RESPONSE_IMMEDIATE_RESOURCE_ALLOCATION :
unpack_resource_allocation_response_msg ( ( resource_allocation_response_msg_t ** ) & ( msg -> data ) , buffer ) ;
break ;
case RESPONSE_ALLOCATION_AND_RUN_JOB_STEP :
unpack_resource_allocation_and_run_response_msg ( ( resource_allocation_and_run_response_msg_t ** ) & ( msg -> data ) , buffer ) ;
unpack_job_desc ( ( job_desc_msg_t **) & ( msg-> data ), buffer ) ;
unpack_update_node_msg ( ( update_node_msg_t ** ) & ( msg-> data ) , buffer ) ;
unpack_update_partition_msg ( ( update_part_msg_t ** ) & ( msg->data ) , buffer ) ;
unpack_launch_tasks_request_msg ( ( launch_tasks_request_msg_t ** ) & ( msg->data ) , buffer ) ;
case RESPONSE_LAUNCH_TASKS :
unpack_launch_tasks_response_msg ( ( launch_tasks_response_msg_t ** ) & ( msg->data ) , buffer ) ;
case REQUEST_REATTACH_TASKS_STREAMS :
unpack_reattach_tasks_streams_msg ( ( reattach_tasks_streams_msg_t ** ) & ( msg->data ) , buffer ) ;
unpack_cancel_tasks_msg ( ( kill_tasks_msg_t ** ) & ( msg->data ) , buffer ) ;
unpack_get_job_step_info ( ( job_step_info_request_msg_t ** ) & ( msg->data ) , buffer ) ;
/******** job_step_id_t Messages ********/
case REQUEST_JOB_INFO :
case REQUEST_CANCEL_JOB_STEP :
case REQUEST_COMPLETE_JOB_STEP :
unpack_job_step_id ( ( job_step_id_t ** ) & ( msg->data ) , buffer ) ;
unpack_revoke_credential_msg ( ( revoke_credential_msg_t ** ) & ( msg->data ) , buffer ) ;
case REQUEST_SIGNAL_JOB :
break ;
case REQUEST_SIGNAL_JOB_STEP :
break ;
case RESPONSE_RECONFIGURE :
case RESPONSE_CANCEL_JOB_STEP :
case RESPONSE_COMPLETE_JOB_STEP :
case RESPONSE_SIGNAL_JOB :
case RESPONSE_SIGNAL_JOB_STEP :
break ;
case REQUEST_JOB_ATTACH :
break ;
case RESPONSE_JOB_ATTACH :
break ;
unpack_job_step_info_response_msg( ( job_step_info_response_msg_t ** ) & ( msg->data ) , buffer ) ;
break ;
case REQUEST_JOB_RESOURCE :
break ;
case RESPONSE_JOB_RESOURCE :
break ;
case REQUEST_RUN_JOB_STEP :
break ;
case RESPONSE_RUN_JOB_STEP:
break ;
case MESSAGE_TASK_EXIT :
unpack_task_exit_msg ( ( task_exit_msg_t ** ) & (msg->data ) , buffer ) ;
break ;
case REQUEST_BATCH_JOB_LAUNCH :
unpack_batch_job_launch ( ( batch_job_launch_msg_t **) &(msg -> data) , buffer) ;
break ;
case MESSAGE_UPLOAD_ACCOUNTING_INFO :
break ;
unpack_return_code ( ( return_code_msg_t **) &(msg -> data) , buffer ) ;
case RESPONSE_JOB_STEP_CREATE:
unpack_job_step_create_response_msg(( job_step_create_response_msg_t ** ) &msg -> data , buffer ) ;
break;
case REQUEST_JOB_STEP_CREATE:
unpack_job_step_create_request_msg(( job_step_create_request_msg_t ** ) &msg -> data , buffer ) ;
debug ( "No pack method for msg type %i", msg -> msg_type ) ;
void pack_update_node_msg ( update_node_msg_t * msg, Buf buffer )
packstr ( msg -> node_names , buffer ) ;
pack16 ( msg -> node_state , buffer ) ;
int unpack_update_node_msg ( update_node_msg_t ** msg , Buf buffer )
{
uint16_t uint16_tmp;
update_node_msg_t * tmp_ptr ;
/* alloc memory for structure */
tmp_ptr = xmalloc ( sizeof ( update_node_msg_t ) ) ;
if (tmp_ptr == NULL)
return ENOMEM;
unpackstr_xmalloc ( & tmp_ptr -> node_names , &uint16_tmp, buffer ) ;
unpack16 ( & tmp_ptr -> node_state , buffer ) ;
void pack_node_registration_status_msg ( slurm_node_registration_status_msg_t * msg, Buf buffer )
int i;
pack32 ( msg -> timestamp , buffer ) ;
packstr ( msg -> node_name , buffer ) ;
pack32 ( msg -> cpus , buffer ) ;
pack32 ( msg -> real_memory_size , buffer ) ;
pack32 ( msg -> temporary_disk_space , buffer ) ;
pack32 ( msg -> job_count , buffer ) ;
for (i = 0; i < msg->job_count ; i++) {
pack32 ( msg -> job_id[i] , buffer ) ;
for (i = 0; i < msg->job_count ; i++) {
pack16 ( msg -> step_id[i] , buffer ) ;
int unpack_node_registration_status_msg ( slurm_node_registration_status_msg_t ** msg , Buf buffer )
uint16_t uint16_tmp;
int i;
slurm_node_registration_status_msg_t * node_reg_ptr ;
/* alloc memory for structure */
node_reg_ptr = xmalloc ( sizeof ( slurm_node_registration_status_msg_t ) ) ;
if (node_reg_ptr == NULL)
{
return ENOMEM;
}
/* load the data values */
/* unpack timestamp of snapshot */
unpack32 ( & node_reg_ptr -> timestamp , buffer ) ;
unpackstr_xmalloc ( & node_reg_ptr -> node_name , &uint16_tmp, buffer ) ;
unpack32 ( & node_reg_ptr -> cpus , buffer ) ;
unpack32 ( & node_reg_ptr -> real_memory_size , buffer ) ;
unpack32 ( & node_reg_ptr -> temporary_disk_space , buffer ) ;
unpack32 ( & node_reg_ptr -> job_count , buffer ) ;
node_reg_ptr -> job_id = xmalloc (sizeof (uint32_t) * node_reg_ptr->job_count);
for (i = 0; i < node_reg_ptr->job_count ; i++) {
unpack32 ( & node_reg_ptr->job_id[i] , buffer ) ;
node_reg_ptr -> step_id = xmalloc (sizeof (uint16_t) * node_reg_ptr->job_count);
for (i = 0; i < node_reg_ptr->job_count ; i++) {
unpack16 ( & node_reg_ptr->step_id[i] , buffer ) ;
*msg = node_reg_ptr ;
return 0 ;
void pack_resource_allocation_response_msg ( resource_allocation_response_msg_t * msg, Buf buffer )
pack32 ( msg->job_id , buffer ) ;
packstr ( msg->node_list , buffer ) ;
pack16 ( msg->num_cpu_groups , buffer ) ;
pack32_array ( msg->cpus_per_node, msg->num_cpu_groups , buffer ) ;
pack32_array ( msg->cpu_count_reps, msg->num_cpu_groups, buffer ) ;
int unpack_resource_allocation_response_msg ( resource_allocation_response_msg_t ** msg , Buf buffer )
{
uint16_t uint16_tmp;
resource_allocation_response_msg_t * tmp_ptr ;
/* alloc memory for structure */
tmp_ptr = xmalloc ( sizeof ( resource_allocation_response_msg_t ) ) ;
if (tmp_ptr == NULL)
return ENOMEM;
/* load the data values */
unpack32 ( & tmp_ptr -> job_id , buffer ) ;
unpackstr_xmalloc ( & tmp_ptr -> node_list , &uint16_tmp, buffer ) ;
unpack16 ( & tmp_ptr -> num_cpu_groups , buffer ) ;
if ( tmp_ptr -> num_cpu_groups > 0 ){
tmp_ptr->cpus_per_node = (uint32_t*) xmalloc( sizeof(uint32_t) * tmp_ptr -> num_cpu_groups );
tmp_ptr->cpu_count_reps = (uint32_t*) xmalloc( sizeof(uint32_t) * tmp_ptr -> num_cpu_groups );
unpack32_array ( (uint32_t **) &(tmp_ptr->cpus_per_node), &uint16_tmp, buffer ) ;
unpack32_array ( (uint32_t **) &(tmp_ptr->cpu_count_reps), &uint16_tmp, buffer ) ;
}
else
{
tmp_ptr->cpus_per_node = NULL;
tmp_ptr->cpu_count_reps = NULL;
}
info("job id is %ld", tmp_ptr->job_id);
void pack_resource_allocation_and_run_response_msg ( resource_allocation_and_run_response_msg_t * msg, Buf buffer )
{
assert ( msg != NULL );
pack32 ( msg->job_id , buffer ) ;
packstr ( msg->node_list , buffer ) ;
pack16 ( msg->num_cpu_groups , buffer ) ;
pack32_array ( msg->cpus_per_node, msg->num_cpu_groups , buffer ) ;
pack32_array ( msg->cpu_count_reps, msg->num_cpu_groups, buffer ) ;
pack32 ( msg -> job_step_id , buffer ) ;
pack_job_credential( msg->credentials, buffer ) ;
#ifdef HAVE_LIBELAN3
qsw_pack_jobinfo( msg -> qsw_job , buffer ) ;
int unpack_resource_allocation_and_run_response_msg ( resource_allocation_and_run_response_msg_t ** msg , Buf buffer )
{
uint16_t uint16_tmp;
resource_allocation_and_run_response_msg_t * tmp_ptr ;
assert ( msg != NULL );
/* alloc memory for structure */
tmp_ptr = xmalloc ( sizeof ( resource_allocation_and_run_response_msg_t ) ) ;
if (tmp_ptr == NULL)
return ENOMEM;
/* load the data values */
unpack32 ( & tmp_ptr -> job_id , buffer ) ;
unpackstr_xmalloc ( & tmp_ptr -> node_list , &uint16_tmp, buffer ) ;
unpack16 ( & tmp_ptr -> num_cpu_groups , buffer ) ;
if ( tmp_ptr -> num_cpu_groups > 0 ){
tmp_ptr->cpus_per_node = (uint32_t*) xmalloc( sizeof(uint32_t) * tmp_ptr -> num_cpu_groups );
tmp_ptr->cpu_count_reps = (uint32_t*) xmalloc( sizeof(uint32_t) * tmp_ptr -> num_cpu_groups );
unpack32_array ( (uint32_t **) &(tmp_ptr->cpus_per_node), &uint16_tmp, buffer ) ;
unpack32_array ( (uint32_t **) &(tmp_ptr->cpu_count_reps), &uint16_tmp, buffer ) ;
}
else
{
tmp_ptr->cpus_per_node = NULL;
tmp_ptr->cpu_count_reps = NULL;
}
unpack32 ( &tmp_ptr -> job_step_id, buffer ) ;
unpack_job_credential( &tmp_ptr->credentials, buffer ) ;
#ifdef HAVE_LIBELAN3
qsw_alloc_jobinfo(&tmp_ptr->qsw_job);
if (qsw_unpack_jobinfo(tmp_ptr->qsw_job, buffer) < 0) {
error("qsw_unpack_jobinfo: %m");
return -1;
}
#endif
*msg = tmp_ptr ;
return 0 ;
}
void pack_submit_response_msg ( submit_response_msg_t * msg, Buf buffer )
pack32 ( msg->job_id , buffer ) ;
}
int unpack_submit_response_msg ( submit_response_msg_t ** msg , Buf buffer )
{
submit_response_msg_t * tmp_ptr ;
/* alloc memory for structure */
tmp_ptr = xmalloc ( sizeof ( submit_response_msg_t ) ) ;
if (tmp_ptr == NULL)
return ENOMEM;
/* load the data values */
unpack32 ( & tmp_ptr -> job_id , buffer ) ;
*msg = tmp_ptr ;
return 0 ;
}
void pack_node_info_msg ( slurm_msg_t * msg, Buf buffer )
{
packmem_array ( msg->data , msg->data_size, buffer );
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}
int unpack_node_info_msg ( node_info_msg_t ** msg , Buf buffer )
tewk
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{
int i;
*msg = xmalloc ( sizeof ( node_info_msg_t ) );
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if ( *msg == NULL )
return ENOMEM ;
/* load buffer's header (data structure version and time) */
unpack32 (&((*msg) -> record_count), buffer );
unpack_time (&((*msg) -> last_update ) , buffer );
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node = (*msg) -> node_array = xmalloc ( sizeof ( node_info_t ) * (*msg)->record_count ) ;
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/* load individual job info */
for (i = 0; i < (*msg)->record_count ; i++) {
unpack_node_info_members ( & node[i] , buffer ) ;
tewk
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}
return 0;
}
int unpack_node_info ( node_info_t ** node , Buf buffer )
unpack_node_info_members ( *node , buffer ) ;
int unpack_node_info_members ( node_info_t * node , Buf buffer )
unpackstr_xmalloc (&node->name, &uint16_tmp, buffer);
unpack16 (&node->node_state, buffer);
unpack32 (&node->cpus, buffer);
unpack32 (&node->real_memory, buffer);
unpack32 (&node->tmp_disk, buffer);
unpack32 (&node->weight, buffer);
unpackstr_xmalloc (&node->features, &uint16_tmp, buffer);
unpackstr_xmalloc (&node->partition, &uint16_tmp, buffer);
pack_update_partition_msg ( update_part_msg_t * msg , Buf buffer )
{
assert ( msg != NULL );
packstr ( msg -> name, buffer ) ;
pack32 ( msg -> max_time, buffer ) ;
pack32 ( msg -> max_nodes, buffer ) ;
pack16 ( msg -> default_part, buffer ) ;
pack16 ( msg -> root_only, buffer ) ;
pack16 ( msg -> shared, buffer ) ;
pack16 ( msg -> state_up, buffer ) ;
packstr ( msg -> nodes, buffer ) ;
packstr ( msg -> allow_groups, buffer ) ;
unpack_update_partition_msg ( update_part_msg_t ** msg , Buf buffer )
{
uint16_t uint16_tmp;
update_part_msg_t * tmp_ptr ;
/* alloc memory for structure */
tmp_ptr = xmalloc ( sizeof ( update_part_msg_t ) ) ;
if (tmp_ptr == NULL)
return ENOMEM;
unpackstr_xmalloc ( &tmp_ptr -> name, &uint16_tmp, buffer ) ;
unpack32 ( &tmp_ptr -> max_time, buffer ) ;
unpack32 ( &tmp_ptr -> max_nodes, buffer ) ;
unpack16 ( &tmp_ptr -> default_part, buffer ) ;
unpack16 ( &tmp_ptr -> root_only, buffer ) ;
unpack16 ( &tmp_ptr -> shared, buffer ) ;
unpack16 ( &tmp_ptr -> state_up, buffer ) ;
unpackstr_xmalloc ( &tmp_ptr -> nodes, &uint16_tmp, buffer ) ;
unpackstr_xmalloc ( &tmp_ptr -> allow_groups, &uint16_tmp, buffer ) ;
*msg = tmp_ptr;
return 0;
}
void pack_job_step_create_request_msg ( job_step_create_request_msg_t* msg , Buf buffer )
{
assert ( msg != NULL );
pack32 ( msg -> job_id, buffer ) ;
pack32 ( msg -> user_id, buffer ) ;
pack32 ( msg -> node_count, buffer ) ;
pack32 ( msg -> cpu_count, buffer ) ;
pack16 ( msg -> relative, buffer ) ;
pack16 ( msg -> task_dist, buffer ) ;
packstr ( msg -> node_list, buffer ) ;
int unpack_job_step_create_request_msg ( job_step_create_request_msg_t** msg , Buf buffer )
{
uint16_t uint16_tmp;
job_step_create_request_msg_t * tmp_ptr ;
/* alloc memory for structure */
tmp_ptr = xmalloc ( sizeof ( job_step_create_request_msg_t ) ) ;
if (tmp_ptr == NULL)
return ENOMEM;
unpack32 ( &( tmp_ptr -> job_id), buffer ) ;
unpack32 ( &( tmp_ptr -> user_id), buffer ) ;
unpack32 ( &( tmp_ptr -> node_count), buffer ) ;
unpack32 ( &( tmp_ptr -> cpu_count), buffer ) ;
unpack16 ( &( tmp_ptr -> relative), buffer ) ;
unpack16 ( &( tmp_ptr -> task_dist), buffer ) ;
unpackstr_xmalloc ( &( tmp_ptr -> node_list ), &uint16_tmp, buffer ) ;
*msg = tmp_ptr;
return 0;
}
void pack_revoke_credential_msg ( revoke_credential_msg_t* msg , Buf buffer )
pack32( msg->job_id, buffer ) ;
pack32( ( uint32_t ) msg->expiration_time, buffer ) ;
packmem( msg->signature, (uint16_t) SLURM_SSL_SIGNATURE_LENGTH , buffer ) ;
int unpack_revoke_credential_msg ( revoke_credential_msg_t** msg , Buf buffer )
{
uint16_t uint16_tmp;
revoke_credential_msg_t* tmp_ptr ;
/* alloc memory for structure */
tmp_ptr = xmalloc ( sizeof ( slurm_job_credential_t ) ) ;
if (tmp_ptr == NULL)
return ENOMEM;
unpack32( &(tmp_ptr->job_id), buffer ) ;
unpack32( (uint32_t*) &(tmp_ptr->expiration_time), buffer ) ;
unpackmem( tmp_ptr->signature, & uint16_tmp , buffer ) ;
void pack_job_credential ( slurm_job_credential_t* cred , Buf buffer )
int i=0;
assert ( cred != NULL );
pack32( cred->job_id, buffer ) ;
pack16( (uint16_t) cred->user_id, buffer ) ;
packstr( cred->node_list, buffer ) ;
pack32( cred->expiration_time, buffer ) ;
for ( i = 0; i < sizeof( cred->signature ); i++ ) /* this is a fixed size array */
pack8( cred->signature[i], buffer );
int unpack_job_credential( slurm_job_credential_t** msg , Buf buffer )
slurm_job_credential_t* tmp_ptr ;
/* alloc memory for structure */
tmp_ptr = xmalloc ( sizeof ( slurm_job_credential_t ) ) ;
if (tmp_ptr == NULL)
return ENOMEM;
unpack32( &(tmp_ptr->job_id), buffer ) ;
unpack16( (uint16_t*) &(tmp_ptr->user_id), buffer ) ;
unpackstr_xmalloc ( &(tmp_ptr->node_list), &uint16_tmp, buffer ) ;
unpack32( (uint32_t*) &(tmp_ptr->expiration_time), buffer ) ; /* What are we going to do about time_t ? */
for ( i = 0; i < sizeof( tmp_ptr->signature ); i++ ) /* this is a fixed size array */
unpack8( (uint8_t*)(tmp_ptr->signature + i), buffer );
*msg = tmp_ptr;
return 0;
}
void pack_job_step_create_response_msg ( job_step_create_response_msg_t* msg , Buf buffer )
{
assert ( msg != NULL );
pack32 ( msg -> job_step_id , buffer ) ;
packstr ( msg -> node_list, buffer ) ;
pack_job_credential( msg->credentials, buffer ) ;
qsw_pack_jobinfo( msg->qsw_job , buffer ) ;
int unpack_job_step_create_response_msg (job_step_create_response_msg_t** msg , Buf buffer )
{
uint16_t uint16_tmp;
job_step_create_response_msg_t * tmp_ptr ;
/* alloc memory for structure */
tmp_ptr = xmalloc ( sizeof ( job_step_create_response_msg_t ) ) ;
if (tmp_ptr == NULL)
return ENOMEM;
unpack32 ( &tmp_ptr -> job_step_id, buffer ) ;
unpackstr_xmalloc ( &tmp_ptr -> node_list, &uint16_tmp, buffer ) ;
unpack_job_credential( &tmp_ptr->credentials, buffer ) ;
*msg = tmp_ptr;
#ifdef HAVE_LIBELAN3
qsw_alloc_jobinfo(&tmp_ptr->qsw_job);
qsw_unpack_jobinfo( tmp_ptr -> qsw_job , buffer ) ;
#endif
return 0;
}
void pack_partition_info_msg ( slurm_msg_t * msg, Buf buffer )
packmem_array(msg->data, msg->data_size, buffer);
int unpack_partition_info_msg ( partition_info_msg_t ** msg , Buf buffer )
*msg = xmalloc ( sizeof ( partition_info_msg_t ) );
if ( *msg == NULL )
return ENOMEM ;
/* load buffer's header (data structure version and time) */
unpack32 (&((*msg) -> record_count), buffer);
unpack_time (&((*msg) -> last_update ) , buffer);
partition = (*msg) -> partition_array = xmalloc ( sizeof ( partition_info_t ) * (*msg)->record_count ) ;
/* load individual job info */
for (i = 0; i < (*msg)->record_count ; i++) {
unpack_partition_info_members ( & partition[i] , buffer ) ;
int unpack_partition_info ( partition_info_t ** part , Buf buffer )
tewk
committed
{
tewk
committed
if (part == NULL) {
return ENOMEM;
}
unpack_partition_info_members ( *part , buffer ) ;
tewk
committed
return 0 ;
}
int unpack_partition_info_members ( partition_info_t * part , Buf buffer )
tewk
committed
{
uint16_t uint16_tmp;
char * node_inx_str;
unpackstr_xmalloc (&part->name, &uint16_tmp, buffer);
tewk
committed
if (part->name == NULL)
part->name = xmalloc(1); /* part->name = "" implicit set */
unpack32 (&part->max_time, buffer);
unpack32 (&part->max_nodes, buffer);
unpack32 (&part->total_nodes, buffer);
unpack32 (&part->total_cpus, buffer);
unpack16 (&part->default_part, buffer);
unpack16 (&part->root_only, buffer);
unpack16 (&part->shared, buffer);
unpack16 (&part->state_up, buffer);
unpackstr_xmalloc (&part->allow_groups, &uint16_tmp, buffer);
unpackstr_xmalloc (&part->nodes, &uint16_tmp, buffer);
unpackstr_xmalloc (&node_inx_str, &uint16_tmp, buffer);
tewk
committed
if (node_inx_str == NULL)
part->node_inx = bitfmt2int("");
else {
part->node_inx = bitfmt2int(node_inx_str);
xfree ( node_inx_str );
}
tewk
committed
return 0;
}
void pack_job_step_info_members( uint32_t job_id, uint16_t step_id,
uint32_t user_id, time_t start_time, char *partition, char *nodes,
Buf buffer )
{
pack32 ( job_id , buffer ) ;
pack16 ( step_id , buffer ) ;
pack32 ( user_id , buffer ) ;
pack_time ( start_time , buffer ) ;
packstr ( partition, buffer ) ;
packstr ( nodes, buffer ) ;
void pack_job_step_info ( job_step_info_t* step, Buf buffer )
{
pack_job_step_info_members(
step->job_id,
step->step_id,
step->user_id,
step->start_time,
step->partition ,
step->nodes,
buffer
int unpack_job_step_info_members ( job_step_info_t * step , Buf buffer )
{
uint16_t uint16_tmp = 0;
unpack32 (&step->job_id, buffer);
unpack16 (&step->step_id, buffer);
unpack32 (&step->user_id, buffer);
unpack_time ((uint32_t*)&step->start_time, buffer);
unpackstr_xmalloc (&step->partition, &uint16_tmp, buffer);
unpackstr_xmalloc (&step->nodes, &uint16_tmp, buffer);
return SLURM_SUCCESS;
}
int unpack_job_step_info ( job_step_info_t ** step , Buf buffer )
{
*step = xmalloc( sizeof( job_step_info_t ) );
unpack_job_step_info_members( *step, buffer );
return SLURM_SUCCESS;
}
int unpack_job_step_info_response_msg ( job_step_info_response_msg_t** msg, Buf buffer )
{
int i=0;
*msg = xmalloc( sizeof( job_step_info_response_msg_t ) );
unpack_time (&(*msg)->last_update , buffer);
unpack32 (&(*msg)->job_step_count , buffer);
(*msg)->job_steps = xmalloc( sizeof(job_step_info_t) * (*msg)->job_step_count );
for ( i=0; i < (*msg)->job_step_count; i++ )
unpack_job_step_info_members ( &(*msg)->job_steps[i] , buffer);
return SLURM_SUCCESS;
}
void pack_buffer_msg ( slurm_msg_t * msg, Buf buffer )
{
packmem_array ( msg->data , msg->data_size, buffer );
int unpack_job_info_msg ( job_info_msg_t ** msg , Buf buffer )
*msg = xmalloc ( sizeof ( job_info_msg_t ) );
if ( *msg == NULL )
return ENOMEM ;
/* load buffer's header (data structure version and time) */
unpack32 (&((*msg) -> record_count), buffer);
unpack_time (&((*msg) -> last_update ) , buffer);
job = (*msg) -> job_array = xmalloc ( sizeof ( job_info_t ) * (*msg)->record_count ) ;
/* load individual job info */
for (i = 0; i < (*msg)->record_count ; i++) {
unpack_job_info_members ( & job[i] , buffer ) ;
int unpack_job_info ( job_info_t ** msg , Buf buffer )
unpack_job_info_members ( *msg , buffer ) ;