/* * display.c - display ps output * Copyright 1998-2003 by Albert Cahalan * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include #include #include #include #include #include #include #include #include #include "../proc/sysinfo.h" #include "../include/c.h" #include "../include/fileutils.h" #include "../include/signals.h" #include "../include/xalloc.h" #include "common.h" #ifndef SIGCHLD #define SIGCHLD SIGCLD #endif char *myname; long Hertz; /* just reports a crash */ static void signal_handler(int signo){ if(signo==SIGPIPE) _exit(0); /* "ps | head" will cause this */ /* fprintf() is not reentrant, but we _exit() anyway */ fprintf(stderr, _("Signal %d (%s) caught by %s (%s).\n"), signo, signal_number_to_name(signo), myname, PACKAGE_VERSION ); switch (signo) { case SIGHUP: case SIGUSR1: case SIGUSR2: exit(EXIT_FAILURE); default: error_at_line(0, 0, __FILE__, __LINE__, "%s", _("please report this bug")); signal(signo, SIG_DFL); /* allow core file creation */ kill(getpid(), signo); } } ///////////////////////////////////////////////////////////////////////////////////// #undef DEBUG #ifdef DEBUG void init_stack_trace(char *prog_name); #include void hex_dump(void *vp){ char *charlist; int i = 0; int line = 45; char *cp = (char *)vp; while(line--){ printf("%8lx ", (unsigned long)cp); charlist = cp; cp += 16; for(i=0; i<16; i++){ if((charlist[i]>31) && (charlist[i]<127)){ printf("%c", charlist[i]); }else{ printf("."); } } printf(" "); for(i=0; i<16; i++) printf(" %2x",(unsigned int)((unsigned char)(charlist[i]))); printf("\n"); i=0; } } static void show_tgid(char *s, int n, sel_union *data){ printf("%s ", s); while(--n){ printf("%d,", data[n].tgid); } printf("%d\n", data[0].tgid); } static void show_uid(char *s, int n, sel_union *data){ struct passwd *pw_data; printf("%s ", s); while(--n){ pw_data = getpwuid(data[n].uid); if(pw_data) printf("%s,", pw_data->pw_name); else printf("%d,", data[n].uid); } pw_data = getpwuid(data[n].uid); if(pw_data) printf("%s\n", pw_data->pw_name); else printf("%d\n", data[n].uid); } static void show_gid(char *s, int n, sel_union *data){ struct group *gr_data; printf("%s ", s); while(--n){ gr_data = getgrgid(data[n].gid); if(gr_data) printf("%s,", gr_data->gr_name); else printf("%d,", data[n].gid); } gr_data = getgrgid(data[n].gid); if(gr_data) printf("%s\n", gr_data->gr_name); else printf("%d\n", data[n].gid); } static void show_tty(char *s, int n, sel_union *data){ printf("%s ", s); while(--n){ printf("%d:%d,", (int)major(data[n].tty), (int)minor(data[n].tty)); } printf("%d:%d\n", (int)major(data[n].tty), (int)minor(data[n].tty)); } static void show_cmd(char *s, int n, sel_union *data){ printf("%s ", s); while(--n){ printf("%.8s,", data[n].cmd); } printf("%.8s\n", data[0].cmd); } static void arg_show(void){ selection_node *walk = selection_list; while(walk){ switch(walk->typecode){ case SEL_RUID: show_uid("RUID", walk->n, walk->u); break; case SEL_EUID: show_uid("EUID", walk->n, walk->u); break; case SEL_SUID: show_uid("SUID", walk->n, walk->u); break; case SEL_FUID: show_uid("FUID", walk->n, walk->u); break; case SEL_RGID: show_gid("RGID", walk->n, walk->u); break; case SEL_EGID: show_gid("EGID", walk->n, walk->u); break; case SEL_SGID: show_gid("SGID", walk->n, walk->u); break; case SEL_FGID: show_gid("FGID", walk->n, walk->u); break; case SEL_PGRP: show_pid("PGRP", walk->n, walk->u); break; case SEL_PID : show_pid("PID ", walk->n, walk->u); break; case SEL_PID_QUICK : show_pid("PID_QUICK ", walk->n, walk->u); break; case SEL_PPID: show_pid("PPID", walk->n, walk->u); break; case SEL_TTY : show_tty("TTY ", walk->n, walk->u); break; case SEL_SESS: show_pid("SESS", walk->n, walk->u); break; case SEL_COMM: show_cmd("COMM", walk->n, walk->u); break; default: printf("Garbage typecode value!\n"); } walk = walk->next; } } #endif ////////////////////////////////////////////////////////////////////////// /***** check the header */ /* Unix98: must not print empty header */ static void check_headers(void){ format_node *walk = format_list; int head_normal = 0; if(header_type==HEAD_MULTI){ header_gap = screen_rows-1; /* true BSD */ return; } if(header_type==HEAD_NONE){ lines_to_next_header = -1; /* old Linux */ return; } while(walk){ if(!*(walk->name)){ walk = walk->next; continue; } if(walk->pr){ head_normal++; walk = walk->next; continue; } walk = walk->next; } if(!head_normal) lines_to_next_header = -1; /* how UNIX does --noheader */ } static format_node *proc_format_list; static format_node *task_format_list; /***** munge lists and determine final needs */ static void lists_and_needs(void){ check_headers(); // only care about the difference when showing both if(thread_flags & TF_show_both){ format_node pfn, tfn; // junk, to handle special case at begin of list format_node *walk = format_list; format_node *p_end = &pfn; format_node *t_end = &tfn; while(walk){ format_node *new = xmalloc(sizeof(format_node)); memcpy(new,walk,sizeof(format_node)); p_end->next = walk; t_end->next = new; p_end = walk; t_end = new; switch(walk->flags & CF_PRINT_MASK){ case CF_PRINT_THREAD_ONLY: p_end->pr = pr_nop; break; case CF_PRINT_PROCESS_ONLY: t_end->pr = pr_nop; break; default: catastrophic_failure(__FILE__, __LINE__, _("please report this bug")); // FALL THROUGH case CF_PRINT_AS_NEEDED: case CF_PRINT_EVERY_TIME: break; } walk = walk->next; } t_end->next = NULL; p_end->next = NULL; proc_format_list = pfn.next; task_format_list = tfn.next; }else{ proc_format_list = format_list; task_format_list = format_list; } } ////////////////////////////////////////////////////////////////////////// /***** fill in %CPU; not in libproc because of include_dead_children */ /* Note: for sorting, not display, so 0..0x7fffffff would be OK */ static void value_this_proc_pcpu(proc_t *buf){ unsigned long long used_jiffies; unsigned long pcpu = 0; unsigned long long seconds; if(want_this_proc(buf)) { if(include_dead_children) used_jiffies = rSv(TICS_ALL_C, ull_int, buf); else used_jiffies = rSv(TICS_ALL, ull_int, buf); seconds = rSv(TIME_ELAPSED, ull_int, buf); if(seconds) pcpu = (used_jiffies * 1000ULL / Hertz) / seconds; rSv(extra, ul_int, buf) = pcpu; } } /***** just display */ static void simple_spew(void){ struct pids_reap *pidreap; proc_t *buf; int i; // -q option (only single SEL_PID_QUICK typecode entry expected in the list, if present) if (selection_list && selection_list->typecode == SEL_PID_QUICK) { unsigned *pidlist = xcalloc(selection_list->n, sizeof(unsigned)); for (i = 0; i < selection_list->n; i++) pidlist[i] = selection_list->u[selection_list->n-i-1].pid; pidreap = procps_pids_select(Pids_info, pidlist, selection_list->n, PROCPS_FILL_PID); free(pidlist); } else { enum pids_reap_type which; which = (thread_flags & (TF_loose_tasks|TF_show_task)) ? PROCPS_REAP_THREADS_TOO : PROCPS_REAP_TASKS_ONLY; pidreap = procps_pids_reap(Pids_info, which); } if (!pidreap) { fprintf(stderr, _("fatal library error, reap\n")); exit(EXIT_FAILURE); } switch(thread_flags & (TF_show_proc|TF_loose_tasks|TF_show_task)){ case TF_show_proc: // normal non-thread output for (i = 0; i < pidreap->counts.total; i++) { buf = pidreap->stacks[i]; if (want_this_proc(buf)) show_one_proc(buf, proc_format_list); } break; case TF_show_task: // -L and -T options case TF_show_proc|TF_loose_tasks: // H option for (i = 0; i < pidreap->counts.total; i++) { buf = pidreap->stacks[i]; if (want_this_proc(buf)) show_one_proc(buf, task_format_list); } break; case TF_show_proc|TF_show_task: // m and -m options procps_pids_sort(Pids_info, pidreap->stacks , pidreap->counts.total, PROCPS_PIDS_TIME_START, PROCPS_SORT_ASCEND); procps_pids_sort(Pids_info, pidreap->stacks , pidreap->counts.total, PROCPS_PIDS_ID_TGID, PROCPS_SORT_ASCEND); for (i = 0; i < pidreap->counts.total; i++) { buf = pidreap->stacks[i]; next_proc: if (want_this_proc(buf)) { int self = rSv(ID_PID, s_int, buf); show_one_proc(buf, proc_format_list); for (; i < pidreap->counts.total; i++) { buf = pidreap->stacks[i]; if (rSv(ID_TGID, s_int, buf) != self) goto next_proc; show_one_proc(buf, task_format_list); } } } break; } } /***** forest output requires sorting by ppid; add start_time by default */ static void prep_forest_sort(void){ sort_node *tmp_list = sort_list; const format_struct *incoming; if(!sort_list) { /* assume start time order */ incoming = search_format_array("ppid"); if(!incoming) { fprintf(stderr, _("could not find ppid\n")); exit(1); } tmp_list = xmalloc(sizeof(sort_node)); tmp_list->reverse = PROCPS_SORT_ASCEND; tmp_list->typecode = '?'; /* what was this for? */ tmp_list->sr = incoming->sr; tmp_list->next = sort_list; sort_list = tmp_list; } /* this is required for the forest option */ incoming = search_format_array("start_time"); if(!incoming) { fprintf(stderr, _("could not find start_time\n")); exit(1); } tmp_list = xmalloc(sizeof(sort_node)); tmp_list->reverse = PROCPS_SORT_ASCEND; tmp_list->typecode = '?'; /* what was this for? */ tmp_list->sr = incoming->sr; tmp_list->next = sort_list; sort_list = tmp_list; } /* we rely on the POSIX requirement for zeroed memory */ static proc_t **processes; /***** show pre-sorted array of process pointers */ static void show_proc_array(int n){ proc_t **p = processes; while(n--){ show_one_proc(*p, proc_format_list); p++; } } /***** show tree */ /* this needs some optimization work */ #define ADOPTED(x) 1 static void show_tree(const int self, const int n, const int level, const int have_sibling){ int i = 0; if(level){ /* add prefix of "+" or "L" */ if(have_sibling) forest_prefix[level-1] = '+'; else forest_prefix[level-1] = 'L'; forest_prefix[level] = '\0'; } show_one_proc(processes[self],format_list); /* first show self */ for(;;){ /* look for children */ if(i >= n) return; /* no children */ if(rSv(ID_PPID, s_int, processes[i]) == rSv(ID_PID, s_int, processes[self])) break; i++; } if(level){ /* change our prefix to "|" or " " for the children */ if(have_sibling) forest_prefix[level-1] = '|'; else forest_prefix[level-1] = ' '; forest_prefix[level] = '\0'; } for(;;){ int self_pid; int more_children = 1; if(i >= n) break; /* over the edge */ self_pid=rSv(ID_PID, s_int, processes[self]); if(i+1 >= n) more_children = 0; else if(rSv(ID_PPID, s_int, processes[i+1]) != self_pid) more_children = 0; if(self_pid==1 && ADOPTED(processes[i]) && forest_type!='u') show_tree(i++, n, level, more_children); else show_tree(i++, n, level+1, more_children); if(!more_children) break; } /* chop prefix that children added -- do we need this? */ forest_prefix[level] = '\0'; } /***** show forest */ static void show_forest(const int n){ int i = n; int j; while(i--){ /* cover whole array looking for trees */ j = n; while(j--){ /* search for parent: if none, i is a tree! */ if(rSv(ID_PID, s_int, processes[j]) == rSv(ID_PPID, s_int, processes[i])) goto not_root; } show_tree(i,n,0,0); not_root: ; } /* don't free the array because it takes time and ps will exit anyway */ } #if 0 static int want_this_proc_nop(proc_t *dummy){ (void)dummy; return 1; } #endif /***** sorted or forest */ static void fancy_spew(void){ struct pids_reap *pidreap; enum pids_reap_type which; proc_t *buf; int i, n = 0; which = (thread_flags & TF_loose_tasks) ? PROCPS_REAP_THREADS_TOO : PROCPS_REAP_TASKS_ONLY; pidreap = procps_pids_reap(Pids_info, which); if (!pidreap || !pidreap->counts.total) { fprintf(stderr, _("fatal library error, reap\n")); exit(EXIT_FAILURE); } processes = xcalloc(pidreap->counts.total, sizeof(void*)); for (i = 0; i < pidreap->counts.total; i++) { buf = pidreap->stacks[i]; value_this_proc_pcpu(buf); if (want_this_proc(buf)) processes[n++] = buf; } if (n) { if(forest_type) prep_forest_sort(); while(sort_list) { procps_pids_sort(Pids_info, processes, n, sort_list->sr, sort_list->reverse); sort_list = sort_list->next; } if(forest_type) show_forest(n); else show_proc_array(n); } free(processes); } static void arg_check_conflicts(void) { int selection_list_len; int has_quick_pid; selection_node *walk = selection_list; has_quick_pid = 0; selection_list_len = 0; while (walk) { if (walk->typecode == SEL_PID_QUICK) has_quick_pid++; walk = walk->next; selection_list_len++; } /* -q doesn't allow multiple occurrences */ if (has_quick_pid > 1) { fprintf(stderr, "q/-q/--quick-pid can only be used once.\n"); exit(1); } /* -q doesn't allow combinations with other selection switches */ if (has_quick_pid && selection_list_len > has_quick_pid) { fprintf(stderr, "q/-q/--quick-pid cannot be combined with other selection options.\n"); exit(1); } /* -q cannot be used with forest type listings */ if (has_quick_pid && forest_type) { fprintf(stderr, "q/-q/--quick-pid cannot be used together with forest type listings.\n"); exit(1); } /* -q cannot be used with sort */ if (has_quick_pid && sort_list) { fprintf(stderr, "q/-q,--quick-pid cannot be used together with sort options.\n"); exit(1); } /* -q cannot be used with -N */ if (has_quick_pid && negate_selection) { fprintf(stderr, "q/-q/--quick-pid cannot be used together with negation switches.\n"); exit(1); } } static void finalize_stacks (void) { format_node *f_node; sort_node *s_node; #if (PIDSITEMS < 60) # error PIDSITEMS (common.h) should be at least 60! #endif /* first, ensure minimum result structures for items which may or may not actually be displayable ... */ Pids_index = 0; // needed by for selections chkREL(CMD) chkREL(ID_EGID) chkREL(ID_EUID) chkREL(ID_FGID) chkREL(ID_FUID) chkREL(ID_PID) chkREL(ID_PPID) chkREL(ID_RGID) chkREL(ID_RUID) chkREL(ID_SESSION) chkREL(ID_SGID) chkREL(ID_SUID) chkREL(ID_TGID) chkREL(STATE) chkREL(TIME_START) chkREL(TTY) // needed to creata an enhanced 'stat/state' chkREL(ID_PGRP) chkREL(ID_TPGID) chkREL(NICE) chkREL(NLWP) chkREL(RSS) chkREL(VM_LOCK) // needed with 's' switch, previously assured chkREL(SIGBLOCKED) chkREL(SIGCATCH) chkREL(SIGIGNORE) chkREL(SIGNALS) chkREL(SIGPENDING) // needed with loss of defunct 'cook_time' macros chkREL(TIME_ALL) chkREL(TIME_ELAPSED) // special items with 'extra' used as former pcpu chkREL(extra) chkREL(noop) // now accommodate any results not yet satisfied f_node = format_list; while (f_node) { (*f_node->pr)(NULL, NULL); f_node = f_node->next; } s_node = sort_list; while (s_node) { if (s_node->xe) (*s_node->xe)(NULL, NULL); s_node = s_node->next; } procps_pids_reset(Pids_info, Pids_index, Pids_items); } /***** no comment */ int main(int argc, char *argv[]){ atexit(close_stdout); myname = strrchr(*argv, '/'); if (myname) ++myname; else myname = *argv; Hertz = procps_hertz_get(); setlocale (LC_ALL, ""); bindtextdomain(PACKAGE, LOCALEDIR); textdomain(PACKAGE); #ifdef DEBUG init_stack_trace(argv[0]); #else do { struct sigaction sa; int i = 32; memset(&sa, 0, sizeof(sa)); sa.sa_handler = signal_handler; sigfillset(&sa.sa_mask); while(i--) switch(i){ default: sigaction(i,&sa,NULL); case 0: case SIGCONT: case SIGINT: /* ^C */ case SIGTSTP: /* ^Z */ case SIGTTOU: /* see stty(1) man page */ case SIGQUIT: /* ^\ */ case SIGPROF: /* profiling */ case SIGKILL: /* can not catch */ case SIGSTOP: /* can not catch */ case SIGWINCH: /* don't care if window size changes */ ; } } while (0); #endif reset_global(); /* must be before parser */ arg_parse(argc,argv); /* check for invalid combination of arguments */ arg_check_conflicts(); /* arg_show(); */ trace("screen is %ux%u\n",screen_cols,screen_rows); /* printf("sizeof(proc_t) is %d.\n", sizeof(proc_t)); */ trace("======= ps output follows =======\n"); init_output(); /* must be between parser and output */ lists_and_needs(); finalize_stacks(); if(forest_type || sort_list) fancy_spew(); /* sort or forest */ else simple_spew(); /* no sort, no forest */ show_one_proc((proc_t *)-1,format_list); /* no output yet? */ procps_pids_unref(&Pids_info); return 0; }