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third-party-mirror / SchedMD / slurm / refs/heads/slurm-2.2 / . / src / squeue / opts.c
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/****************************************************************************\
* opts.c - squeue command line option parsing
*****************************************************************************
* Copyright (C) 2002-2007 The Regents of the University of California.
* Copyright (C) 2008-2010 Lawrence Livermore National Security.
* Produced at Lawrence Livermore National Laboratory (cf, DISCLAIMER).
* Written by Joey Ekstrom <ekstrom1@llnl.gov>, Morris Jette <jette1@llnl.gov>
* CODE-OCEC-09-009. All rights reserved.
*
* This file is part of SLURM, a resource management program.
* For details, see <https://computing.llnl.gov/linux/slurm/>.
* Please also read the included file: DISCLAIMER.
*
* 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.
*
* In addition, as a special exception, the copyright holders give permission
* to link the code of portions of this program with the OpenSSL library under
* certain conditions as described in each individual source file, and
* distribute linked combinations including the two. You must obey the GNU
* General Public License in all respects for all of the code used other than
* OpenSSL. If you modify file(s) with this exception, you may extend this
* exception to your version of the file(s), but you are not obligated to do
* so. If you do not wish to do so, delete this exception statement from your
* version. If you delete this exception statement from all source files in
* the program, then also delete it here.
*
* 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.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
\*****************************************************************************/
#ifndef _GNU_SOURCE
# define _GNU_SOURCE
#endif
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#if HAVE_GETOPT_H
# include <getopt.h>
#else
# include "src/common/getopt.h"
#endif
#include <pwd.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <unistd.h>
#include "src/common/read_config.h"
#include "src/common/xstring.h"
#include "src/common/proc_args.h"
#include "src/common/uid.h"
#include "src/squeue/squeue.h"
/* getopt_long options, integers but not characters */
#define OPT_LONG_HELP 0x100
#define OPT_LONG_USAGE 0x101
#define OPT_LONG_HIDE 0x102
#define OPT_LONG_START 0x103
/* FUNCTIONS */
static List _build_job_list( char* str );
static List _build_str_list( char* str );
static List _build_state_list( char* str );
static List _build_all_states_list( void );
static List _build_step_list( char* str );
static List _build_user_list( char* str );
static char *_get_prefix(char *token);
static void _help( void );
static int _max_cpus_per_node(void);
static int _parse_state( char* str, uint16_t* states );
static void _parse_token( char *token, char *field, int *field_size,
bool *right_justify, char **suffix);
static void _print_options( void );
static void _usage( void );
/*
* parse_command_line
*/
extern void
parse_command_line( int argc, char* argv[] )
{
char *env_val = NULL;
bool override_format_env = false;
int opt_char;
int option_index;
static struct option long_options[] = {
{"accounts", required_argument, 0, 'A'},
{"all", no_argument, 0, 'a'},
{"format", required_argument, 0, 'o'},
{"help", no_argument, 0, OPT_LONG_HELP},
{"hide", no_argument, 0, OPT_LONG_HIDE},
{"iterate", required_argument, 0, 'i'},
{"jobs", optional_argument, 0, 'j'},
{"long", no_argument, 0, 'l'},
{"cluster", required_argument, 0, 'M'},
{"clusters", required_argument, 0, 'M'},
{"node", required_argument, 0, 'n'},
{"nodes", required_argument, 0, 'n'},
{"noheader", no_argument, 0, 'h'},
{"partitions", required_argument, 0, 'p'},
{"qos", required_argument, 0, 'q'},
{"sort", required_argument, 0, 'S'},
{"start", no_argument, 0, OPT_LONG_START},
{"steps", optional_argument, 0, 's'},
{"states", required_argument, 0, 't'},
{"usage", no_argument, 0, OPT_LONG_USAGE},
{"user", required_argument, 0, 'u'},
{"users", required_argument, 0, 'u'},
{"verbose", no_argument, 0, 'v'},
{"version", no_argument, 0, 'V'},
{NULL, 0, 0, 0}
};
if (getenv("SQUEUE_ALL"))
params.all_flag = true;
if ( ( env_val = getenv("SQUEUE_SORT") ) )
params.sort = xstrdup(env_val);
if ( ( env_val = getenv("SLURM_CLUSTERS") ) ) {
if (!(params.clusters = slurmdb_get_info_cluster(env_val))) {
error("'%s' invalid entry for SLURM_CLUSTERS",
env_val);
exit(1);
}
working_cluster_rec = list_peek(params.clusters);
}
while ((opt_char = getopt_long(argc, argv,
"A:ahi:j::ln:M:o:p:q:s::S:t:u:U:vV",
long_options, &option_index)) != -1) {
switch (opt_char) {
case (int)'?':
fprintf(stderr, "Try \"squeue --help\" "
"for more information\n");
exit(1);
case (int) 'A':
case (int) 'U': /* backwards compatibility */
xfree(params.accounts);
params.accounts = xstrdup(optarg);
params.account_list =
_build_str_list( params.accounts );
break;
case (int)'a':
params.all_flag = true;
break;
case (int)'h':
params.no_header = true;
break;
case (int) 'i':
params.iterate= atoi(optarg);
if (params.iterate <= 0) {
error ("--iterate=%s\n", optarg);
exit(1);
}
break;
case (int) 'j':
if (optarg) {
params.jobs = xstrdup(optarg);
params.job_list =
_build_job_list(params.jobs);
}
params.job_flag = true;
break;
case (int) 'l':
params.long_list = true;
override_format_env = true;
break;
case (int) 'M':
if (params.clusters)
list_destroy(params.clusters);
if (!(params.clusters =
slurmdb_get_info_cluster(optarg))) {
error("'%s' invalid entry for --cluster",
optarg);
exit(1);
}
working_cluster_rec = list_peek(params.clusters);
break;
case (int) 'n':
if (params.nodes)
hostset_destroy(params.nodes);
params.nodes = hostset_create(optarg);
if (params.nodes == NULL) {
error("'%s' invalid entry for --nodes",
optarg);
exit(1);
}
break;
case (int) 'o':
xfree(params.format);
params.format = xstrdup(optarg);
override_format_env = true;
break;
case (int) 'p':
xfree(params.partitions);
params.partitions = xstrdup(optarg);
params.part_list =
_build_str_list( params.partitions );
params.all_flag = true;
break;
case (int) 'q':
xfree(params.qoss);
params.qoss = xstrdup(optarg);
params.qos_list =
_build_str_list( params.qoss );
break;
case (int) 's':
if (optarg) {
params.steps = xstrdup(optarg);
params.step_list =
_build_step_list(params.steps);
}
params.step_flag = true;
override_format_env = true;
break;
case (int) 'S':
xfree(params.sort);
params.sort = xstrdup(optarg);
break;
case (int) 't':
xfree(params.states);
params.states = xstrdup(optarg);
params.state_list =
_build_state_list( params.states );
break;
case (int) 'u':
xfree(params.users);
params.users = xstrdup(optarg);
params.user_list =
_build_user_list( params.users );
break;
case (int) 'v':
params.verbose++;
break;
case (int) 'V':
print_slurm_version();
exit(0);
case OPT_LONG_HELP:
_help();
exit(0);
case OPT_LONG_HIDE:
params.all_flag = false;
break;
case OPT_LONG_START:
params.start_flag = true;
break;
case OPT_LONG_USAGE:
_usage();
exit(0);
}
}
if ( override_format_env == false ) {
if ( ( env_val = getenv("SQUEUE_FORMAT") ) )
params.format = xstrdup(env_val);
}
params.cluster_flags = slurmdb_setup_cluster_flags();
if (optind < argc) {
if (params.job_flag) {
params.jobs = xstrdup(argv[optind++]);
params.job_list = _build_job_list(params.jobs);
} else if (params.step_flag) {
params.steps = xstrdup(argv[optind++]);
params.step_list = _build_step_list(params.steps);
}
if (optind < argc) {
error("Unrecognized option: %s",argv[optind]);
_usage();
exit(1);
}
}
if ( params.job_flag && params.step_flag) {
if (params.job_list) {
verbose("Printing job steps with job filter");
params.job_flag = false;
} else {
error("Incompatible options --jobs and --steps");
exit(1);
}
}
if ( params.nodes ) {
char *name1 = NULL;
char *name2 = NULL;
hostset_t nodenames = hostset_create(NULL);
if (nodenames == NULL)
fatal("malloc failure");
while ( hostset_count(params.nodes) > 0 ) {
name1 = hostset_pop(params.nodes);
/* localhost = use current host name */
if ( strcasecmp("localhost", name1) == 0 ) {
name2 = xmalloc(128);
gethostname_short(name2, 128);
} else {
/* translate NodeHostName to NodeName */
name2 = slurm_conf_get_nodename(name1);
/* use NodeName if translation failed */
if ( name2 == NULL )
name2 = xstrdup(name1);
}
hostset_insert(nodenames, name2);
free(name1);
xfree(name2);
}
/* Replace params.nodename with the new one */
hostset_destroy(params.nodes);
params.nodes = nodenames;
}
if ( ( params.accounts == NULL ) &&
( env_val = getenv("SQUEUE_ACCOUNT") ) ) {
params.accounts = xstrdup(env_val);
params.account_list = _build_str_list( params.accounts );
}
if ( ( params.partitions == NULL ) &&
( env_val = getenv("SQUEUE_PARTITION") ) ) {
params.partitions = xstrdup(env_val);
params.part_list = _build_str_list( params.partitions );
params.all_flag = true;
}
if ( ( params.qoss == NULL ) &&
( env_val = getenv("SQUEUE_QOS") ) ) {
params.qoss = xstrdup(env_val);
params.qos_list = _build_str_list( params.qoss );
}
if ( ( params.states == NULL ) &&
( env_val = getenv("SQUEUE_STATES") ) ) {
params.states = xstrdup(env_val);
params.state_list = _build_state_list( params.states );
}
if ( ( params.users == NULL ) &&
( env_val = getenv("SQUEUE_USERS") ) ) {
params.users = xstrdup(env_val);
params.user_list = _build_user_list( params.users );
}
if ( params.start_flag && !params.step_flag ) {
/* Set more defaults */
if (params.format == NULL)
params.format = xstrdup("%.7i %.9P %.8j %.8u %.2t %.19S %.6D %R");
if (params.sort == NULL)
params.sort = xstrdup("S");
if (params.states == NULL) {
params.states = xstrdup("PD");
params.state_list = _build_state_list( params.states );
}
}
params.max_cpus = _max_cpus_per_node();
if ( params.verbose )
_print_options();
}
/* Return the maximum number of processors for any node in the cluster */
static int _max_cpus_per_node(void)
{
int error_code, max_cpus = 1;
node_info_msg_t *node_info_ptr = NULL;
error_code = slurm_load_node ((time_t) NULL, &node_info_ptr,
params.all_flag);
if (error_code == SLURM_SUCCESS) {
int i;
node_info_t *node_ptr = node_info_ptr->node_array;
for (i=0; i<node_info_ptr->record_count; i++) {
max_cpus = MAX(max_cpus, node_ptr[i].cpus);
}
slurm_free_node_info_msg (node_info_ptr);
}
return max_cpus;
}
/*
* _parse_state - convert job state name string to numeric value
* IN str - state name
* OUT states - enum job_states value corresponding to str
* RET 0 or error code
*/
static int
_parse_state( char* str, uint16_t* states )
{
int i;
char *state_names;
if ((i = job_state_num(str)) >= 0) {
*states = (uint16_t) i;
return SLURM_SUCCESS;
}
error ("Invalid job state specified: %s", str);
state_names = xstrdup(job_state_string(0));
for (i=1; i<JOB_END; i++) {
xstrcat(state_names, ",");
xstrcat(state_names, job_state_string(i));
}
xstrcat(state_names, ",");
xstrcat(state_names, job_state_string(JOB_COMPLETING));
xstrcat(state_names, ",");
xstrcat(state_names, job_state_string(JOB_CONFIGURING));
error ("Valid job states include: %s\n", state_names);
xfree (state_names);
return SLURM_ERROR;
}
/*
* parse_format - Take the user's format specification and use it to build
* build the format specifications (internalize it to print.c data
* structures)
* IN format - user's format specification
* RET zero or error code
*/
extern int parse_format( char* format )
{
int field_size;
bool right_justify;
char *prefix = NULL, *suffix = NULL, *token = NULL;
char *tmp_char = NULL, *tmp_format = NULL;
char field[1];
if (format == NULL) {
error ("Format option lacks specification.");
exit( 1 );
}
params.format_list = list_create( NULL );
if ((prefix = _get_prefix(format))) {
if (params.step_flag)
step_format_add_prefix( params.format_list, 0, 0,
prefix);
else
job_format_add_prefix( params.format_list, 0, 0,
prefix);
}
field_size = strlen( format );
tmp_format = xmalloc( field_size + 1 );
strcpy( tmp_format, format );
token = strtok_r( tmp_format, "%", &tmp_char);
if (token && (format[0] != '%')) /* toss header */
token = strtok_r( NULL, "%", &tmp_char );
while (token) {
_parse_token( token, field, &field_size, &right_justify,
&suffix);
if (params.step_flag) {
if (field[0] == 'A')
step_format_add_num_tasks( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'b')
step_format_add_gres( params.format_list,
field_size,
right_justify, suffix );
else if (field[0] == 'i')
step_format_add_id( params.format_list,
field_size,
right_justify, suffix );
else if (field[0] == 'j')
step_format_add_name( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'l')
step_format_add_time_limit( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'M')
step_format_add_time_used( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'N')
step_format_add_nodes( params.format_list,
field_size,
right_justify, suffix );
else if (field[0] == 'P')
step_format_add_partition( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'S')
step_format_add_time_start( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'U')
step_format_add_user_id( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'u')
step_format_add_user_name( params.format_list,
field_size,
right_justify,
suffix );
else {
prefix = xstrdup("%");
xstrcat(prefix, token);
xfree(suffix);
suffix = prefix;
step_format_add_invalid( params.format_list,
field_size,
right_justify,
suffix );
error ( "Invalid job step format "
"specification: %c",
field[0] );
}
} else {
if (field[0] == 'a')
job_format_add_account( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'b')
job_format_add_gres( params.format_list,
field_size, right_justify,
suffix );
else if (field[0] == 'c')
job_format_add_min_cpus( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'C')
job_format_add_num_cpus( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'd')
job_format_add_min_tmp_disk(
params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'D')
job_format_add_num_nodes( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'e')
job_format_add_time_end( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'E')
job_format_add_dependency( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'f')
job_format_add_features( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'g')
job_format_add_group_name( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'G')
job_format_add_group_id( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'h')
job_format_add_shared( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'H')
job_format_add_sockets( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'i')
job_format_add_job_id( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'I')
job_format_add_cores( params.format_list,
field_size,
right_justify, suffix );
else if (field[0] == 'j')
job_format_add_name( params.format_list,
field_size,
right_justify, suffix );
else if (field[0] == 'J')
job_format_add_threads( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'k')
job_format_add_comment( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'l')
job_format_add_time_limit( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'L')
job_format_add_time_left( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'm')
job_format_add_min_memory( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'M')
job_format_add_time_used( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'n')
job_format_add_req_nodes( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'N')
job_format_add_nodes( params.format_list,
field_size,
right_justify, suffix );
else if (field[0] == 'O')
job_format_add_contiguous( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'p')
job_format_add_priority( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'P')
job_format_add_partition( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'q')
job_format_add_qos( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'Q')
job_format_add_priority_long(
params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'r')
job_format_add_reason( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'R')
job_format_add_reason_list( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 's')
job_format_add_select_jobinfo(
params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'S')
job_format_add_time_start( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 't')
job_format_add_job_state_compact(
params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'T')
job_format_add_job_state( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'U')
job_format_add_user_id( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'u')
job_format_add_user_name( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'v')
job_format_add_reservation( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'w')
job_format_add_wckey( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'x')
job_format_add_exc_nodes( params.format_list,
field_size,
right_justify,
suffix );
else if (field[0] == 'z')
job_format_add_num_sct( params.format_list,
field_size,
right_justify,
suffix );
else {
prefix = xstrdup("%");
xstrcat(prefix, token);
xfree(suffix);
suffix = prefix;
job_format_add_invalid( params.format_list,
field_size,
right_justify,
suffix );
error( "Invalid job format specification: %c",
field[0] );
}
}
token = strtok_r( NULL, "%", &tmp_char);
}
xfree( tmp_format );
return SLURM_SUCCESS;
}
/* Take a format specification and copy out it's prefix
* IN/OUT token - input specification, everything before "%" is removed
* RET - everything before "%" in the token
*/
static char *
_get_prefix( char *token )
{
char *pos, *prefix;
if (token == NULL)
return NULL;
pos = strchr(token, (int) '%');
if (pos == NULL) /* everything is prefix */
return xstrdup(token);
if (pos == token) /* no prefix */
return NULL;
pos[0] = '\0'; /* some prefix */
prefix = xstrdup(token);
pos[0] = '%';
memmove(token, pos, (strlen(pos)+1));
return prefix;
}
/* Take a format specification and break it into its components
* IN token - input specification without leading "%", eg. ".5u"
* OUT field - the letter code for the data type
* OUT field_size - byte count
* OUT right_justify - true of field to be right justified
* OUT suffix - string containing everthing after the field specification
*/
static void
_parse_token( char *token, char *field, int *field_size, bool *right_justify,
char **suffix)
{
int i = 0;
assert (token != NULL);
if (token[i] == '.') {
*right_justify = true;
i++;
} else
*right_justify = false;
*field_size = 0;
while ((token[i] >= '0') && (token[i] <= '9'))
*field_size = (*field_size * 10) + (token[i++] - '0');
field[0] = token[i++];
*suffix = xstrdup(&token[i]);
}
/* print the parameters specified */
static void
_print_options()
{
ListIterator iterator;
int i;
char *part;
uint32_t *user;
enum job_states *state_id;
squeue_job_step_t *job_step_id;
uint32_t *job_id;
char hostlist[8192];
if (params.nodes) {
hostset_ranged_string(params.nodes, sizeof(hostlist)-1,
hostlist);
} else
hostlist[0] = '\0';
printf( "-----------------------------\n" );
printf( "all = %s\n", params.all_flag ? "true" : "false");
printf( "format = %s\n", params.format );
printf( "iterate = %d\n", params.iterate );
printf( "job_flag = %d\n", params.job_flag );
printf( "jobs = %s\n", params.jobs );
printf( "max_cpus = %d\n", params.max_cpus ) ;
printf( "nodes = %s\n", hostlist ) ;
printf( "partitions = %s\n", params.partitions ) ;
printf( "sort = %s\n", params.sort ) ;
printf( "start_flag = %d\n", params.start_flag );
printf( "states = %s\n", params.states ) ;
printf( "step_flag = %d\n", params.step_flag );
printf( "steps = %s\n", params.steps );
printf( "users = %s\n", params.users );
printf( "verbose = %d\n", params.verbose );
if ((params.verbose > 1) && params.job_list) {
i = 0;
iterator = list_iterator_create( params.job_list );
while ( (job_id = list_next( iterator )) ) {
printf( "job_list[%d] = %u\n", i++, *job_id);
}
list_iterator_destroy( iterator );
}
if ((params.verbose > 1) && params.part_list) {
i = 0;
iterator = list_iterator_create( params.part_list );
while ( (part = list_next( iterator )) ) {
printf( "part_list[%d] = %s\n", i++, part);
}
list_iterator_destroy( iterator );
}
if ((params.verbose > 1) && params.state_list) {
i = 0;
iterator = list_iterator_create( params.state_list );
while ( (state_id = list_next( iterator )) ) {
printf( "state_list[%d] = %s\n",
i++, job_state_string( *state_id ));
}
list_iterator_destroy( iterator );
}
if ((params.verbose > 1) && params.step_list) {
i = 0;
iterator = list_iterator_create( params.step_list );
while ( (job_step_id = list_next( iterator )) ) {
printf( "step_list[%d] = %u.%u\n", i++,
job_step_id->job_id, job_step_id->step_id );
}
list_iterator_destroy( iterator );
}
if ((params.verbose > 1) && params.user_list) {
i = 0;
iterator = list_iterator_create( params.user_list );
while ( (user = list_next( iterator )) ) {
printf( "user_list[%d] = %u\n", i++, *user);
}
list_iterator_destroy( iterator );
}
printf( "-----------------------------\n\n\n" );
} ;
/*
* _build_job_list- build a list of job_ids
* IN str - comma separated list of job_ids
* RET List of job_ids (uint32_t)
*/
static List
_build_job_list( char* str )
{
List my_list;
char *job = NULL, *tmp_char = NULL, *my_job_list = NULL;
int i;
uint32_t *job_id = NULL;
if ( str == NULL )
return NULL;
my_list = list_create( NULL );
my_job_list = xstrdup( str );
job = strtok_r( my_job_list, ",", &tmp_char );
while (job) {
i = strtol( job, (char **) NULL, 10 );
if (i <= 0) {
error( "Invalid job id: %s", job );
exit( 1 );
}
job_id = xmalloc( sizeof( uint32_t ) );
*job_id = (uint32_t) i;
list_append( my_list, job_id );
job = strtok_r (NULL, ",", &tmp_char);
}
return my_list;
}
/*
* _build_str_list- build a list of strings
* IN str - comma separated list of strings
* RET List of strings
*/
static List
_build_str_list( char* str )
{
List my_list;
char *part = NULL, *tmp_char = NULL, *my_part_list = NULL;
if ( str == NULL)
return NULL;
my_list = list_create( NULL );
my_part_list = xstrdup( str );
part = strtok_r( my_part_list, ",", &tmp_char );
while (part)
{
list_append( my_list, part );
part = strtok_r( NULL, ",", &tmp_char );
}
return my_list;
}
/*
* _build_state_list - build a list of job states
* IN str - comma separated list of job states
* RET List of enum job_states values
*/
static List
_build_state_list( char* str )
{
List my_list;
char *state = NULL, *tmp_char = NULL, *my_state_list = NULL;
uint16_t *state_id = NULL;
if ( str == NULL)
return NULL;
if ( strcasecmp( str, "all" ) == 0 )
return _build_all_states_list ();
my_list = list_create( NULL );
my_state_list = xstrdup( str );
state = strtok_r( my_state_list, ",", &tmp_char );
while (state)
{
state_id = xmalloc( sizeof( uint16_t ) );
if ( _parse_state( state, state_id ) != SLURM_SUCCESS )
exit( 1 );
list_append( my_list, state_id );
state = strtok_r( NULL, ",", &tmp_char );
}
return my_list;
}
/*
* _build_all_states_list - build a list containing all possible job states
* RET List of uint16_t values
*/
static List
_build_all_states_list( void )
{
List my_list;
int i;
uint16_t * state_id;
my_list = list_create( NULL );
for (i = 0; i<JOB_END; i++) {
state_id = xmalloc( sizeof(uint16_t) );
*state_id = (uint16_t) i;
list_append( my_list, state_id );
}
state_id = xmalloc( sizeof(uint16_t) );
*state_id = (uint16_t) JOB_COMPLETING;
list_append( my_list, state_id );
state_id = xmalloc( sizeof(uint16_t) );
*state_id = (uint16_t) JOB_CONFIGURING;
list_append( my_list, state_id );
return my_list;
}
/*
* _build_step_list- build a list of job/step_ids
* IN str - comma separated list of job_id.step_ids
* RET List of job/step_ids (structure of uint32_t's)
*/
static List
_build_step_list( char* str )
{
List my_list;
char *step = NULL, *tmp_char = NULL, *tmps_char = NULL;
char *job_name = NULL, *step_name = NULL, *my_step_list = NULL;
int i, j;
squeue_job_step_t *job_step_id = NULL;
if ( str == NULL)
return NULL;
my_list = list_create( NULL );
my_step_list = xstrdup( str );
step = strtok_r( my_step_list, ",", &tmp_char );
while (step)
{
job_name = strtok_r( step, ".", &tmps_char );
step_name = strtok_r( NULL, ".", &tmps_char );
i = strtol( job_name, (char **) NULL, 10 );
if (step_name == NULL) {
error ( "Invalid job_step id: %s.??",
job_name );
exit( 1 );
}
j = strtol( step_name, (char **) NULL, 10 );
if ((i <= 0) || (j < 0)) {
error( "Invalid job_step id: %s.%s",
job_name, step_name );
exit( 1 );
}
job_step_id = xmalloc( sizeof( squeue_job_step_t ) );
job_step_id->job_id = (uint32_t) i;
job_step_id->step_id = (uint32_t) j;
list_append( my_list, job_step_id );
step = strtok_r( NULL, ",", &tmp_char);
}
return my_list;
}
/*
* _build_user_list- build a list of UIDs
* IN str - comma separated list of user names
* RET List of UIDs (uint32_t)
*/
static List
_build_user_list( char* str )
{
List my_list;
char *user = NULL;
char *tmp_char = NULL, *my_user_list = NULL;
if ( str == NULL )
return NULL;
my_list = list_create( NULL );
my_user_list = xstrdup( str );
user = strtok_r( my_user_list, ",", &tmp_char );
while (user) {
uid_t some_uid;
if ( uid_from_string( user, &some_uid ) == 0 ) {
uint32_t *user_id = NULL;
user_id = xmalloc( sizeof( uint32_t ));
*user_id = (uint32_t) some_uid;
list_append( my_list, user_id );
} else {
error( "Invalid user: %s\n", user);
}
user = strtok_r (NULL, ",", &tmp_char);
}
return my_list;
}
static void _usage(void)
{
printf("\
Usage: squeue [-i seconds] [-S fields] [--start] [-t states]\n\
[-p partitions] [-n node] [-o format] [-u user_name]\n\
[--usage] [-ahjlsv]\n");
}
static void _help(void)
{
printf("\
Usage: squeue [OPTIONS]\n\
-A, --account=account(s) comma separated list of accounts\n\
to view, default is all accounts\n\
-a, --all display jobs in hidden partitions\n\
-h, --noheader no headers on output\n\
--hide do not display jobs in hidden partitions\n\
-i, --iterate=seconds specify an interation period\n\
-j, --job=job(s) comma separated list of jobs IDs\n\
to view, default is all\n\
-l, --long long report\n\
-M, --clusters=cluster_name cluster to issue commands to. Default is\n\
current cluster. cluster with no name will\n\
reset to default.\n\
-n, --nodes=hostlist list of nodes to view, default is \n\
all nodes\n\
-o, --format=format format specification\n\
-p, --partition=partition(s) comma separated list of partitions\n\
to view, default is all partitions\n\
-q, --qos=qos(s) comma separated list of qos's\n\
to view, default is all qos's\n\
-s, --step=step(s) comma separated list of job steps\n\
to view, default is all\n\
-S, --sort=fields comma separated list of fields to sort on\n\
--start print expected start times of pending jobs\n\
-t, --states=states comma separated list of states to view,\n\
default is pending and running,\n\
'--states=all' reports all states\n\
-u, --user=user_name(s) comma separated list of users to view\n\
-v, --verbose verbosity level\n\
-V, --version output version information and exit\n\
\nHelp options:\n\
--help show this help message\n\
--usage display a brief summary of squeue options\n");
}