/*****************************************************************************\ * sort.c - squeue sorting functions ***************************************************************************** * 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 Morris Jette , et. al. * CODE-OCEC-09-009. All rights reserved. * * This file is part of Slurm, a resource management program. * For details, see . * 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. \*****************************************************************************/ #include #include #include #include "src/common/uid.h" #include "src/common/xstring.h" #include "src/squeue/print.h" #include "src/squeue/squeue.h" /* If you want "linux12" to sort before "linux2", then set PURE_ALPHA_SORT */ #define PURE_ALPHA_SORT 0 #define CLUSTER_NAME_LEN 7 static bool reverse_order; static void _get_job_info_from_void(job_info_t **j1, job_info_t **j2, void *v1, void *v2); static void _get_step_info_from_void(job_step_info_t **j1, job_step_info_t **j2, void *v1, void *v2); static int _sort_job_by_batch_host(void *void1, void *void2); static int _sort_job_by_cluster_name(void *void1, void *void2); static int _sort_job_by_group_id(void *void1, void *void2); static int _sort_job_by_group_name(void *void1, void *void2); static int _sort_job_by_id(void *void1, void *void2); static int _sort_job_by_name(void *void1, void *void2); static int _sort_job_by_state(void *void1, void *void2); static int _sort_job_by_state_compact(void *void1, void *void2); static int _sort_job_by_time_end(void *void1, void *void2); static int _sort_job_by_time_left(void *void1, void *void2); static int _sort_job_by_time_limit(void *void1, void *void2); static int _sort_job_by_time_submit(void *void1, void *void2); static int _sort_job_by_time_start(void *void1, void *void2); static int _sort_job_by_time_used(void *void1, void *void2); static int _sort_job_by_node_list(void *void1, void *void2); static int _sort_job_by_num_nodes(void *void1, void *void2); static int _sort_job_by_num_cpus(void *void1, void *void2); static int _sort_job_by_num_sct(void *void1, void *void2); static int _sort_job_by_sockets(void *void1, void *void2); static int _sort_job_by_cores(void *void1, void *void2); static int _sort_job_by_threads(void *void1, void *void2); static int _sort_job_by_min_memory(void *void1, void *void2); static int _sort_job_by_min_tmp_disk(void *void1, void *void2); static int _sort_job_by_partition(void *void1, void *void2); static int _sort_job_by_priority(void *void1, void *void2); static int _sort_job_by_user_id(void *void1, void *void2); static int _sort_job_by_user_name(void *void1, void *void2); static int _sort_job_by_reservation(void *void1, void *void2); static int _sort_step_by_cluster_name(void *void1, void *void2); static int _sort_step_by_id(void *void1, void *void2); static int _sort_step_by_node_list(void *void1, void *void2); static int _sort_step_by_partition(void *void1, void *void2); static int _sort_step_by_time_start(void *void1, void *void2); static int _sort_step_by_time_limit(void *void1, void *void2); static int _sort_step_by_time_used(void *void1, void *void2); static int _sort_step_by_user_id(void *void1, void *void2); static int _sort_step_by_user_name(void *void1, void *void2); static int _sort_by_node_list(char *nodes1, char *nodes2); static time_t now; /***************************************************************************** * Global Print Functions *****************************************************************************/ void sort_job_list(List job_list) { int i; now = time(NULL); if (params.sort == NULL) params.sort = xstrdup("P,t,-p"); /* Partition,state,priority */ for (i=(strlen(params.sort)-1); i >= 0; i--) { reverse_order = false; if ((params.sort[i] == ',') || (params.sort[i] == '+') || params.sort[i] == '-') continue; if ((i > 0) && (params.sort[i-1] == '-')) reverse_order = true; if ((CLUSTER_NAME_LEN <= (i + 1)) && !xstrncasecmp(params.sort + (i - CLUSTER_NAME_LEN + 1), "cluster", CLUSTER_NAME_LEN)) { if ((CLUSTER_NAME_LEN <= i) && (params.sort[i - CLUSTER_NAME_LEN] == '-')) reverse_order = true; list_sort(job_list, _sort_job_by_cluster_name); i -= CLUSTER_NAME_LEN - 1; } else if (params.sort[i] == 'B') list_sort(job_list, _sort_job_by_batch_host); else if (params.sort[i] == 'b') /* Vestigial gres sort */ info("Invalid sort specification: b"); else if (params.sort[i] == 'c') ; /* sort_job_by_min_cpus_per_node */ else if (params.sort[i] == 'C') list_sort(job_list, _sort_job_by_num_cpus); else if (params.sort[i] == 'd') list_sort(job_list, _sort_job_by_min_tmp_disk); else if (params.sort[i] == 'D') list_sort(job_list, _sort_job_by_num_nodes); else if (params.sort[i] == 'e') list_sort(job_list, _sort_job_by_time_end); else if (params.sort[i] == 'f') ; /* sort_job_by_featuers */ else if (params.sort[i] == 'g') list_sort(job_list, _sort_job_by_group_name); else if (params.sort[i] == 'G') list_sort(job_list, _sort_job_by_group_id); else if (params.sort[i] == 'h') ; /* sort_job_by_over_subscribe, not supported */ else if (params.sort[i] == 'H') list_sort(job_list, _sort_job_by_sockets); else if (params.sort[i] == 'i') list_sort(job_list, _sort_job_by_id); else if (params.sort[i] == 'I') list_sort(job_list, _sort_job_by_cores); else if (params.sort[i] == 'j') list_sort(job_list, _sort_job_by_name); else if (params.sort[i] == 'J') list_sort(job_list, _sort_job_by_threads); else if (params.sort[i] == 'l') list_sort(job_list, _sort_job_by_time_limit); else if (params.sort[i] == 'L') list_sort(job_list, _sort_job_by_time_left); else if (params.sort[i] == 'm') list_sort(job_list, _sort_job_by_min_memory); else if (params.sort[i] == 'M') list_sort(job_list, _sort_job_by_time_used); else if (params.sort[i] == 'n') ; /* sort_job_by_nodes_requested */ else if (params.sort[i] == 'N') list_sort(job_list, _sort_job_by_node_list); else if (params.sort[i] == 'O') ; /* sort_job_by_contiguous */ else if (params.sort[i] == 'p') list_sort(job_list, _sort_job_by_priority); else if (params.sort[i] == 'P') list_sort(job_list, _sort_job_by_partition); else if (params.sort[i] == 'Q') list_sort(job_list, _sort_job_by_priority); else if (params.sort[i] == 'S') list_sort(job_list, _sort_job_by_time_start); else if (params.sort[i] == 't') list_sort(job_list, _sort_job_by_state_compact); else if (params.sort[i] == 'T') list_sort(job_list, _sort_job_by_state); else if (params.sort[i] == 'u') list_sort(job_list, _sort_job_by_user_name); else if (params.sort[i] == 'U') list_sort(job_list, _sort_job_by_user_id); else if (params.sort[i] == 'v') list_sort(job_list, _sort_job_by_reservation); else if (params.sort[i] == 'V') list_sort(job_list, _sort_job_by_time_submit); else if (params.sort[i] == 'z') list_sort(job_list, _sort_job_by_num_sct); else { error("Invalid sort specification: %c", params.sort[i]); exit(1); } } } void sort_jobs_by_start_time (List jobs) { reverse_order = true; list_sort (jobs, _sort_job_by_time_start); return; } void sort_step_list(List step_list) { int i; now = time(NULL); if (params.sort == NULL) params.sort = xstrdup("P,i"); /* Partition, step id */ for (i=(strlen(params.sort)-1); i >= 0; i--) { reverse_order = false; if ((params.sort[i] == ',') || (params.sort[i] == '+') || params.sort[i] == '-') continue; if ((i > 0) && (params.sort[i-1] == '-')) reverse_order = true; if ((CLUSTER_NAME_LEN <= (i + 1)) && !xstrncasecmp(params.sort + (i - CLUSTER_NAME_LEN + 1), "cluster", CLUSTER_NAME_LEN)) { if ((CLUSTER_NAME_LEN <= i) && (params.sort[i - CLUSTER_NAME_LEN] == '-')) reverse_order = true; list_sort(step_list, _sort_step_by_cluster_name); i -= CLUSTER_NAME_LEN - 1; } else if (params.sort[i] == 'b') /* Vestigial gres sort */ info("Invalid sort specification: b"); else if (params.sort[i] == 'i') list_sort(step_list, _sort_step_by_id); else if (params.sort[i] == 'N') list_sort(step_list, _sort_step_by_node_list); else if (params.sort[i] == 'P') list_sort(step_list, _sort_step_by_partition); else if (params.sort[i] == 'l') list_sort(step_list, _sort_step_by_time_limit); else if (params.sort[i] == 'S') list_sort(step_list, _sort_step_by_time_start); else if (params.sort[i] == 'M') list_sort(step_list, _sort_step_by_time_used); else if (params.sort[i] == 'u') list_sort(step_list, _sort_step_by_user_name); else if (params.sort[i] == 'U') list_sort(step_list, _sort_step_by_user_id); } } /***************************************************************************** * Local Job Sort Functions *****************************************************************************/ static inline int _diff_long(long value_1, long value_2) { if (value_1 > value_2) return 1; if (value_1 < value_2) return -1; return 0; } static inline int _diff_time(time_t value_1, time_t value_2) { if (value_1 > value_2) return 1; if (value_1 < value_2) return -1; return 0; } static inline int _diff_uint32(uint32_t value_1, uint32_t value_2) { if (value_1 > value_2) return 1; if (value_1 < value_2) return -1; return 0; } static inline int _diff_uint64(uint64_t value_1, uint64_t value_2) { if (value_1 > value_2) return 1; if (value_1 < value_2) return -1; return 0; } static void _get_job_info_from_void(job_info_t **j1, job_info_t **j2, void *void1, void *void2) { *j1 = (*(squeue_job_rec_t **)void1)->job_ptr; *j2 = (*(squeue_job_rec_t **)void2)->job_ptr; } static void _get_part_prio_info_from_void(uint32_t *prio1, uint32_t *prio2, void *void1, void *void2) { *prio1 = (*(squeue_job_rec_t **)void1)->part_prio; *prio2 = (*(squeue_job_rec_t **)void2)->part_prio; } static void _get_part_name_info_from_void(char **name1, char **name2, void *void1, void *void2) { *name1 = (*(squeue_job_rec_t **)void1)->part_name; *name2 = (*(squeue_job_rec_t **)void2)->part_name; } static void _get_step_info_from_void(job_step_info_t **s1, job_step_info_t **s2, void *v1, void *v2) { *s1 = *(job_step_info_t **)v1; *s2 = *(job_step_info_t **)v2; } static int _sort_job_by_batch_host(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; char *val1 = "", *val2 = ""; _get_job_info_from_void(&job1, &job2, void1, void2); if (job1->batch_host) val1 = job1->batch_host; if (job2->batch_host) val2 = job2->batch_host; diff = xstrcmp(val1, val2); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_cluster_name(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = xstrcmp(job1->cluster, job2->cluster); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_group_id(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = _diff_uint32(job1->group_id, job2->group_id); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_group_name(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; struct group *group_info = NULL; char *name1 = "", *name2 = ""; _get_job_info_from_void(&job1, &job2, void1, void2); if ((group_info = getgrgid((gid_t) job1->group_id))) name1 = group_info->gr_name; if ((group_info = getgrgid((gid_t) job2->group_id))) name2 = group_info->gr_name; diff = xstrcmp(name1, name2); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_id(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; uint32_t job_id1, job_id2; _get_job_info_from_void(&job1, &job2, void1, void2); if (job1->het_job_id) job_id1 = job1->het_job_id; else if (job1->array_task_id == NO_VAL) job_id1 = job1->job_id; else job_id1 = job1->array_job_id; if (job2->het_job_id) job_id2 = job2->het_job_id; else if (job2->array_task_id == NO_VAL) job_id2 = job2->job_id; else job_id2 = job2->array_job_id; if (job_id1 == job_id2) { if (job1->het_job_id) job_id1 = job1->het_job_offset; else job_id1 = job1->array_task_id; if (job2->het_job_id) job_id2 = job2->het_job_offset; else job_id2 = job2->array_task_id; } diff = _diff_uint32(job_id1, job_id2); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_name(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; char *val1 = "", *val2 = ""; _get_job_info_from_void(&job1, &job2, void1, void2); if (job1->name) val1 = job1->name; if (job2->name) val2 = job2->name; diff = xstrcmp(val1, val2); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_node_list(void *void1, void *void2) { job_info_t *job1, *job2; _get_job_info_from_void(&job1, &job2, void1, void2); return _sort_by_node_list(job1->nodes, job2->nodes); } static int _sort_step_by_node_list(void *void1, void *void2) { job_step_info_t *step1, *step2; _get_step_info_from_void(&step1, &step2, void1, void2); return _sort_by_node_list(step1->nodes, step2->nodes); } static int _sort_by_node_list(char *nodes1, char *nodes2) { int diff = 0; hostlist_t hostlist1, hostlist2; #if PURE_ALPHA_SORT char *val1, *val2; char *ptr1, *ptr2; #endif hostlist1 = hostlist_create(nodes1); hostlist_sort(hostlist1); hostlist2 = hostlist_create(nodes2); hostlist_sort(hostlist2); #if PURE_ALPHA_SORT val1 = hostlist_shift(hostlist1); if (val1) ptr1 = val1; else ptr1 = ""; val2 = hostlist_shift(hostlist2); if (val2) ptr2 = val2; else ptr2 = ""; diff = xstrcmp(ptr1, ptr2); if (val1) free(val1); if (val2) free(val2); #else /* * The hostlist in sinfo_data_t should each only have one hostrange, and * each hostrange should only have one node name/host name */ diff = hostlist_cmp_first(hostlist1, hostlist2); #endif hostlist_destroy(hostlist1); hostlist_destroy(hostlist2); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_num_nodes(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = _diff_uint32(job1->num_nodes, job2->num_nodes); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_num_cpus(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = _diff_uint32(job1->num_cpus, job2->num_cpus); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_num_sct(void *void1, void *void2) { int diffs, diffc, difft; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diffs = _diff_uint32(job1->sockets_per_node, job2->sockets_per_node); diffc = _diff_uint32(job1->cores_per_socket, job2->cores_per_socket); difft = _diff_uint32(job1->threads_per_core, job2->threads_per_core); if (reverse_order) { diffs = -diffs; diffc = -diffc; difft = -difft; } if (diffs) return diffs; else if (diffc) return diffc; else return difft; } static int _sort_job_by_sockets(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = _diff_uint32(job1->sockets_per_node, job2->sockets_per_node); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_cores(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = _diff_uint32(job1->cores_per_socket, job2->cores_per_socket); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_threads(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = _diff_uint32(job1->threads_per_core, job2->threads_per_core); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_min_memory(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); job1->pn_min_memory &= (~MEM_PER_CPU); job2->pn_min_memory &= (~MEM_PER_CPU); diff = _diff_uint64(job1->pn_min_memory, job2->pn_min_memory); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_min_tmp_disk(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = _diff_uint32(job1->pn_min_tmp_disk, job2->pn_min_tmp_disk); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_state(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = xstrcmp(job_state_string(job1->job_state), job_state_string(job2->job_state)); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_state_compact(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = xstrcmp(job_state_string_compact(job1->job_state), job_state_string_compact(job2->job_state)); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_time_end(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = _diff_time(job1->end_time, job2->end_time); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_time_left(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; time_t time1, time2; _get_job_info_from_void(&job1, &job2, void1, void2); if ((job1->time_limit == INFINITE) || (job1->time_limit == NO_VAL)) time1 = INFINITE; else time1 = job1->time_limit * 60 - job_time_used(job1); if ((job2->time_limit == INFINITE) || (job2->time_limit == NO_VAL)) time2 = INFINITE; else time2 = job2->time_limit * 60 - job_time_used(job2); diff = _diff_time(time1, time2); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_time_limit(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = _diff_uint32(job1->time_limit, job2->time_limit); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_time_submit(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = _diff_time(job1->submit_time, job2->submit_time); if (reverse_order) diff = -diff; return diff; } static time_t _get_start_time(job_info_t *job) { if (job->start_time == (time_t) 0) return (now + 100); if ((job->job_state == JOB_PENDING) && (job->start_time < now)) return now; return job->start_time; } static int _sort_job_by_time_start(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; time_t start_time1, start_time2; _get_job_info_from_void(&job1, &job2, void1, void2); start_time1 = _get_start_time(job1); start_time2 = _get_start_time(job2); diff = _diff_time(start_time1, start_time2); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_time_used(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; long time1, time2; _get_job_info_from_void(&job1, &job2, void1, void2); time1 = job_time_used(job1); time2 = job_time_used(job2); diff = _diff_long(time1, time2); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_partition(void *void1, void *void2) { int diff; char *val1 = NULL, *val2 = NULL; _get_part_name_info_from_void(&val1, &val2, void1, void2); diff = xstrcmp(val1, val2); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_priority(void *void1, void *void2) { int diff; job_info_t *job1, *job2; uint32_t prio1 = 0, prio2 = 0; _get_part_prio_info_from_void(&prio1, &prio2, void1, void2); diff = _diff_uint32(prio1, prio2); if (diff == 0) { /* Same partition priority, test job priority */ _get_job_info_from_void(&job1, &job2, void1, void2); diff = _diff_uint32(job1->priority, job2->priority); } if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_user_id(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; _get_job_info_from_void(&job1, &job2, void1, void2); diff = _diff_uint32(job1->user_id, job2->user_id); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_user_name(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; char *name1, *name2; _get_job_info_from_void(&job1, &job2, void1, void2); name1 = uid_to_string_cached((uid_t) job1->user_id); name2 = uid_to_string_cached((uid_t) job2->user_id); diff = xstrcmp(name1, name2); if (reverse_order) diff = -diff; return diff; } static int _sort_job_by_reservation(void *void1, void *void2) { int diff; job_info_t *job1; job_info_t *job2; char *val1 = "", *val2 = ""; _get_job_info_from_void(&job1, &job2, void1, void2); if (job1->resv_name) val1 = job1->resv_name; if (job2->resv_name) val2 = job2->resv_name; diff = xstrcmp(val1, val2); if (reverse_order) diff = -diff; return diff; } /***************************************************************************** * Local Step Sort Functions *****************************************************************************/ static int _sort_step_by_cluster_name(void *void1, void *void2) { int diff; job_step_info_t *step1; job_step_info_t *step2; _get_step_info_from_void(&step1, &step2, void1, void2); diff = xstrcmp(step1->cluster, step2->cluster); if (reverse_order) diff = -diff; return diff; } static int _sort_step_by_id(void *void1, void *void2) { int diff; job_step_info_t *step1; job_step_info_t *step2; _get_step_info_from_void(&step1, &step2, void1, void2); diff = _diff_uint32(step1->job_id, step2->job_id); if (diff == 0) diff = _diff_uint32(step1->step_id, step2->step_id); if (reverse_order) diff = -diff; return diff; } static int _sort_step_by_partition(void *void1, void *void2) { int diff; job_step_info_t *step1; job_step_info_t *step2; char *val1 = "", *val2 = ""; _get_step_info_from_void(&step1, &step2, void1, void2); if (step1->partition) val1 = step1->partition; if (step2->partition) val2 = step2->partition; diff = xstrcmp(val1, val2); if (reverse_order) diff = -diff; return diff; } static int _sort_step_by_time_limit(void *void1, void *void2) { int diff; job_step_info_t *step1; job_step_info_t *step2; _get_step_info_from_void(&step1, &step2, void1, void2); diff = _diff_uint32(step1->time_limit, step2->time_limit); if (reverse_order) diff = -diff; return diff; } static int _sort_step_by_time_start(void *void1, void *void2) { int diff; job_step_info_t *step1; job_step_info_t *step2; _get_step_info_from_void(&step1, &step2, void1, void2); diff = _diff_time(step1->start_time, step2->start_time); if (reverse_order) diff = -diff; return diff; } static int _sort_step_by_time_used(void *void1, void *void2) { int diff; job_step_info_t *step1; job_step_info_t *step2; time_t used1, used2; _get_step_info_from_void(&step1, &step2, void1, void2); used1 = difftime(now, step1->start_time); used2 = difftime(now, step2->start_time); diff = _diff_time(used1, used2); if (reverse_order) diff = -diff; return diff; } static int _sort_step_by_user_id(void *void1, void *void2) { int diff; job_step_info_t *step1; job_step_info_t *step2; _get_step_info_from_void(&step1, &step2, void1, void2); diff = _diff_uint32(step1->user_id, step2->user_id); if (reverse_order) diff = -diff; return diff; } static int _sort_step_by_user_name(void *void1, void *void2) { int diff; job_step_info_t *step1; job_step_info_t *step2; char *name1, *name2; _get_step_info_from_void(&step1, &step2, void1, void2); name1 = uid_to_string_cached((uid_t) step1->user_id); name2 = uid_to_string_cached((uid_t) step2->user_id); diff = xstrcmp(name1, name2); if (reverse_order) diff = -diff; return diff; }