/* Access, formatting, & comparison routines for printing process info. Copyright (C) 1995,96,97,99,2001,02 Free Software Foundation, Inc. Written by Miles Bader This program 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, or (at your option) any later version. This program 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 this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #include #include #include #include #include #include #include "ps.h" #include "common.h" /* XXX */ static char *get_syscall_name (int num) { return 0; } static char *get_rpc_name (mach_msg_id_t it) { return 0; } /* ---------------------------------------------------------------- */ /* Getter definitions */ typedef void (*vf)(); static int ps_get_pid (struct proc_stat *ps) { return proc_stat_pid (ps); } const struct ps_getter ps_pid_getter = {"pid", PSTAT_PID, (vf) ps_get_pid}; static int ps_get_thread_index (struct proc_stat *ps) { return proc_stat_thread_index (ps); } const struct ps_getter ps_thread_index_getter = {"thread_index", PSTAT_THREAD, (vf) ps_get_thread_index}; static struct ps_user * ps_get_owner (struct proc_stat *ps) { return proc_stat_owner (ps); } const struct ps_getter ps_owner_getter = {"owner", PSTAT_OWNER, (vf) ps_get_owner}; static int ps_get_owner_uid (struct proc_stat *ps) { return proc_stat_owner_uid (ps); } const struct ps_getter ps_owner_uid_getter = {"uid", PSTAT_OWNER_UID, (vf) ps_get_owner_uid}; static int ps_get_ppid (struct proc_stat *ps) { return proc_stat_proc_info (ps)->ppid; } const struct ps_getter ps_ppid_getter = {"ppid", PSTAT_PROC_INFO, (vf) ps_get_ppid}; static int ps_get_pgrp (struct proc_stat *ps) { return proc_stat_proc_info (ps)->pgrp; } const struct ps_getter ps_pgrp_getter = {"pgrp", PSTAT_PROC_INFO, (vf) ps_get_pgrp}; static int ps_get_session (struct proc_stat *ps) { return proc_stat_proc_info (ps)->session; } const struct ps_getter ps_session_getter = {"session", PSTAT_PROC_INFO, (vf) ps_get_session}; static int ps_get_login_col (struct proc_stat *ps) { return proc_stat_proc_info (ps)->logincollection; } const struct ps_getter ps_login_col_getter = {"login_col", PSTAT_PROC_INFO, (vf) ps_get_login_col}; static int ps_get_num_threads (struct proc_stat *ps) { return proc_stat_num_threads (ps); } const struct ps_getter ps_num_threads_getter = {"num_threads", PSTAT_NUM_THREADS, (vf)ps_get_num_threads}; static void ps_get_args (struct proc_stat *ps, char **args_p, int *args_len_p) { *args_p = proc_stat_args (ps); *args_len_p = proc_stat_args_len (ps); } const struct ps_getter ps_args_getter = {"args", PSTAT_ARGS, ps_get_args}; static void ps_get_env (struct proc_stat *ps, char **env_p, int *env_len_p) { *env_p = proc_stat_env (ps); *env_len_p = proc_stat_env_len (ps); } const struct ps_getter ps_env_getter = {"env", PSTAT_ENV, ps_get_env}; static int ps_get_state (struct proc_stat *ps) { return proc_stat_state (ps); } const struct ps_getter ps_state_getter = {"state", PSTAT_STATE, (vf) ps_get_state}; static void ps_get_wait (struct proc_stat *ps, char **wait, int *rpc) { *wait = ps->thread_wait; *rpc = ps->thread_rpc; } const struct ps_getter ps_wait_getter = {"wait", PSTAT_THREAD_WAIT, ps_get_wait}; static size_t ps_get_vsize (struct proc_stat *ps) { return proc_stat_task_basic_info (ps)->virtual_size; } const struct ps_getter ps_vsize_getter = {"vsize", PSTAT_TASK_BASIC, (vf) ps_get_vsize}; static size_t ps_get_rsize (struct proc_stat *ps) { return proc_stat_task_basic_info (ps)->resident_size; } const struct ps_getter ps_rsize_getter = {"rsize", PSTAT_TASK_BASIC, (vf) ps_get_rsize}; static int ps_get_cur_priority (struct proc_stat *ps) { return proc_stat_thread_basic_info (ps)->cur_priority; } const struct ps_getter ps_cur_priority_getter = {"cur_priority", PSTAT_THREAD_BASIC, (vf) ps_get_cur_priority}; static int ps_get_base_priority (struct proc_stat *ps) { return proc_stat_thread_basic_info (ps)->base_priority; } const struct ps_getter ps_base_priority_getter = {"base_priority", PSTAT_THREAD_BASIC, (vf) ps_get_base_priority}; static int ps_get_max_priority (struct proc_stat *ps) { return proc_stat_thread_sched_info (ps)->max_priority; } const struct ps_getter ps_max_priority_getter = {"max_priority", PSTAT_THREAD_SCHED, (vf) ps_get_max_priority}; static void ps_get_usr_time (struct proc_stat *ps, struct timeval *tv) { time_value_t tvt = proc_stat_thread_basic_info (ps)->user_time; tv->tv_sec = tvt.seconds; tv->tv_usec = tvt.microseconds; } const struct ps_getter ps_usr_time_getter = {"usr_time", PSTAT_THREAD_BASIC, ps_get_usr_time}; static void ps_get_sys_time (struct proc_stat *ps, struct timeval *tv) { time_value_t tvt = proc_stat_thread_basic_info (ps)->system_time; tv->tv_sec = tvt.seconds; tv->tv_usec = tvt.microseconds; } const struct ps_getter ps_sys_time_getter = {"sys_time", PSTAT_THREAD_BASIC, ps_get_sys_time}; static void ps_get_tot_time (struct proc_stat *ps, struct timeval *tv) { time_value_t tvt = proc_stat_thread_basic_info (ps)->user_time; time_value_add (&tvt, &proc_stat_thread_basic_info (ps)->system_time); tv->tv_sec = tvt.seconds; tv->tv_usec = tvt.microseconds; } const struct ps_getter ps_tot_time_getter = {"tot_time", PSTAT_THREAD_BASIC, ps_get_tot_time}; static void ps_get_start_time (struct proc_stat *ps, struct timeval *tv) { time_value_t *const tvt = &proc_stat_task_basic_info (ps)->creation_time; tv->tv_sec = tvt->seconds; tv->tv_usec = tvt->microseconds; } const struct ps_getter ps_start_time_getter = {"start_time", PSTAT_TASK_BASIC, ps_get_start_time}; static float ps_get_rmem_frac (struct proc_stat *ps) { static size_t mem_size = 0; if (mem_size == 0) { host_basic_info_t info; error_t err = ps_host_basic_info (&info); if (err == 0) mem_size = info->memory_size; } if (mem_size > 0) return (float)proc_stat_task_basic_info (ps)->resident_size / (float)mem_size; else return 0.0; } const struct ps_getter ps_rmem_frac_getter = {"rmem_frac", PSTAT_TASK_BASIC, (vf) ps_get_rmem_frac}; static float ps_get_cpu_frac (struct proc_stat *ps) { return (float) proc_stat_thread_basic_info (ps)->cpu_usage / (float) TH_USAGE_SCALE; } const struct ps_getter ps_cpu_frac_getter = {"cpu_frac", PSTAT_THREAD_BASIC, (vf) ps_get_cpu_frac}; static int ps_get_sleep (struct proc_stat *ps) { return proc_stat_thread_basic_info (ps)->sleep_time; } const struct ps_getter ps_sleep_getter = {"sleep", PSTAT_THREAD_BASIC, (vf) ps_get_sleep}; static int ps_get_susp_count (struct proc_stat *ps) { return proc_stat_suspend_count (ps); } const struct ps_getter ps_susp_count_getter = {"susp_count", PSTAT_SUSPEND_COUNT, (vf) ps_get_susp_count}; static int ps_get_proc_susp_count (struct proc_stat *ps) { return proc_stat_task_basic_info (ps)->suspend_count; } const struct ps_getter ps_proc_susp_count_getter = {"proc_susp_count", PSTAT_TASK_BASIC, (vf) ps_get_proc_susp_count}; static int ps_get_thread_susp_count (struct proc_stat *ps) { return proc_stat_thread_basic_info (ps)->suspend_count; } const struct ps_getter ps_thread_susp_count_getter = {"thread_susp_count", PSTAT_SUSPEND_COUNT, (vf) ps_get_thread_susp_count}; static struct ps_tty * ps_get_tty (struct proc_stat *ps) { return proc_stat_tty (ps); } const struct ps_getter ps_tty_getter = {"tty", PSTAT_TTY, (vf)ps_get_tty}; static int ps_get_page_faults (struct proc_stat *ps) { return proc_stat_task_events_info (ps)->faults; } const struct ps_getter ps_page_faults_getter = {"page_faults", PSTAT_TASK_EVENTS, (vf) ps_get_page_faults}; static int ps_get_cow_faults (struct proc_stat *ps) { return proc_stat_task_events_info (ps)->cow_faults; } const struct ps_getter ps_cow_faults_getter = {"cow_faults", PSTAT_TASK_EVENTS, (vf) ps_get_cow_faults}; static int ps_get_pageins (struct proc_stat *ps) { return proc_stat_task_events_info (ps)->pageins; } const struct ps_getter ps_pageins_getter = {"pageins", PSTAT_TASK_EVENTS, (vf) ps_get_pageins}; static int ps_get_msgs_sent (struct proc_stat *ps) { return proc_stat_task_events_info (ps)->messages_sent; } const struct ps_getter ps_msgs_sent_getter = {"msgs_sent", PSTAT_TASK_EVENTS, (vf) ps_get_msgs_sent}; static int ps_get_msgs_rcvd (struct proc_stat *ps) { return proc_stat_task_events_info (ps)->messages_received; } const struct ps_getter ps_msgs_rcvd_getter = {"msgs_rcvd", PSTAT_TASK_EVENTS, (vf) ps_get_msgs_rcvd}; static int ps_get_zero_fills (struct proc_stat *ps) { return proc_stat_task_events_info (ps)->zero_fills; } const struct ps_getter ps_zero_fills_getter = {"zero_fills", PSTAT_TASK_EVENTS, (vf) ps_get_zero_fills}; static int ps_get_num_ports (struct proc_stat *ps) { return proc_stat_num_ports (ps); } const struct ps_getter ps_num_ports_getter = {"num_ports", PSTAT_NUM_PORTS, (vf) ps_get_num_ports}; /* ---------------------------------------------------------------- */ /* some printing functions */ /* G () is a helpful macro that just returns the getter G's access function cast into a function pointer returning TYPE, as how the function should be called varies depending on the getter. */ #define G(getter,type) ((type (*)())((getter)->fn)) /* Similar to G, but takes a fmt field and uses its getter. */ #define FG(field,type) G(field->spec->getter, type) error_t ps_emit_int (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { return ps_stream_write_int_field (stream, FG (field, int)(ps), field->width); } error_t ps_emit_nz_int (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { int value = FG (field, int)(ps); if (value) return ps_stream_write_int_field (stream, value, field->width); else return ps_stream_write_field (stream, "-", field->width); } error_t ps_emit_priority (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { return ps_stream_write_int_field (stream, MACH_PRIORITY_TO_NICE (FG (field, int)(ps)), field->width); } error_t ps_emit_num_blocks (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { char buf[20]; sprintf(buf, "%d", FG (field, int)(ps) / 1024); return ps_stream_write_field (stream, buf, field->width); } size_t sprint_frac_value (char *buf, size_t value, int min_value_len, size_t frac, int frac_scale, int width) { int value_len = 0; int frac_len = 0; if (value >= 1000) /* the integer part */ value_len = 4; /* values 1000-1023 */ if (value >= 100) value_len = 3; else if (value >= 10) value_len = 2; else value_len = 1; while (value_len < min_value_len--) *buf++ = '0'; for (frac_len = frac_scale ; frac_len > 0 && (width < value_len + 1 + frac_len || frac % 10 == 0) ; frac_len--) frac /= 10; if (frac_len > 0) sprintf (buf, "%zd.%0*zd", value, frac_len, frac); else sprintf (buf, "%zd", value); return strlen (buf); } error_t ps_emit_percent (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { char buf[20]; int width = field->width; float perc = FG (field, float)(ps) * 100; if (width == 0) sprintf (buf, "%g", perc); else if (ABS (width) > 3) sprintf(buf, "%.*f", ABS (width) - 3, perc); else sprintf (buf, "%d", (int) perc); return ps_stream_write_field (stream, buf, width); } /* prints its value nicely */ error_t ps_emit_nice_size_t (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { char buf[20]; size_t value = FG (field, size_t)(ps); char *sfx = " KMG"; size_t frac = 0; while (value >= 1024) { frac = ((value & 0x3FF) * 1000) >> 10; value >>= 10; sfx++; } sprintf(buf + sprint_frac_value (buf, value, 1, frac, 3, ABS (field->width) - 1), "%c", *sfx); return ps_stream_write_field (stream, buf, field->width); } error_t ps_emit_seconds (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { char buf[20]; struct timeval tv; int width = field->width, prec = field->precision; FG (field, void)(ps, &tv); if ((field->flags & PS_FMT_FIELD_COLON_MOD) && tv.tv_sec == 0) strcpy (buf, "-"); else fmt_seconds (&tv, !(field->flags & PS_FMT_FIELD_AT_MOD), prec, ABS (width), buf, sizeof (buf)); return ps_stream_write_field (stream, buf, width); } error_t ps_emit_minutes (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { char buf[20]; struct timeval tv; int width = field->width; FG (field, void)(ps, &tv); if ((field->flags & PS_FMT_FIELD_COLON_MOD) && tv.tv_sec < 60) strcpy (buf, "-"); else fmt_minutes (&tv, !(field->flags & PS_FMT_FIELD_AT_MOD), ABS (width), buf, sizeof (buf)); return ps_stream_write_field (stream, buf, width); } error_t ps_emit_past_time (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { static struct timeval now; char buf[20]; struct timeval tv; int width = field->width; FG (field, void)(ps, &tv); if (now.tv_sec == 0 && gettimeofday (&now, 0) < 0) return errno; fmt_past_time (&tv, &now, ABS (width), buf, sizeof buf); return ps_stream_write_field (stream, buf, width); } error_t ps_emit_uid (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { int uid = FG (field, int)(ps); if (uid < 0) return ps_stream_write_field (stream, "-", field->width); else return ps_stream_write_int_field (stream, uid, field->width); } error_t ps_emit_uname (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { int width = field->width; struct ps_user *u = FG (field, struct ps_user *)(ps); if (u) { struct passwd *pw = ps_user_passwd (u); if (pw == NULL) return ps_stream_write_int_field (stream, ps_user_uid (u), width); else return ps_stream_write_field (stream, pw->pw_name, width); } else return ps_stream_write_field (stream, "-", width); } error_t ps_emit_user_name (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { int width = field->width; struct ps_user *u = FG (field, struct ps_user *)(ps); if (u) { struct passwd *pw = ps_user_passwd (u); if (pw == NULL) { char buf[20]; sprintf (buf, "(UID %d)", pw->pw_uid); return ps_stream_write_field (stream, buf, width); } else return ps_stream_write_field (stream, pw->pw_gecos, width); } else return ps_stream_write_field (stream, "-", width); } /* prints a string with embedded nuls as spaces */ error_t ps_emit_args (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { char *s0, *p, *q; int s0len; int width = field->width; int fwidth = ABS (width); char static_buf[200]; char *buf = static_buf; FG (field, void)(ps, &s0, &s0len); if (!s0 || s0len == 0 ) strcpy (buf, "-"); else { if (s0len > sizeof static_buf) { buf = malloc (s0len + 1); if (buf == NULL) return ENOMEM; } if (fwidth == 0 || fwidth > s0len) fwidth = s0len; for (p = buf, q = s0; fwidth-- > 0; p++, q++) { int ch = *q; *p = (ch == '\0' ? ' ' : ch); } if (q > s0 && *(q - 1) == '\0') *--p = '\0'; else *p = '\0'; } { error_t err = ps_stream_write_trunc_field (stream, buf, width); if (buf != static_buf) free (buf); return err; } } error_t ps_emit_string (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { char *str; int len; FG (field, void)(ps, &str, &len); if (!str || len == 0) str = "-"; return ps_stream_write_trunc_field (stream, str, field->width); } error_t ps_emit_tty_name (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { const char *name = "-"; struct ps_tty *tty = FG (field, struct ps_tty *)(ps); if (tty) { name = ps_tty_short_name (tty); if (name == NULL || *name == '\0') name = "?"; } return ps_stream_write_field (stream, name, field->width); } struct state_shadow { /* If any states in STATES are set, the states in shadow are suppressed. */ int states; int shadow; }; static const struct state_shadow state_shadows[] = { /* If the process has no parent, it's not a hurd process, and various hurd process bits are likely to be noise, so turn them off (but leave the noparent bit on). */ { PSTAT_STATE_P_NOPARENT, (PSTAT_STATE_P_ATTRS & ~PSTAT_STATE_P_NOPARENT) }, /* Don't show sleeping thread if one is running, or the process is stopped.*/ { PSTAT_STATE_T_RUN | PSTAT_STATE_P_STOP, PSTAT_STATE_T_SLEEP | PSTAT_STATE_T_IDLE | PSTAT_STATE_T_WAIT }, /* Only show the longest sleep. */ { PSTAT_STATE_T_IDLE, PSTAT_STATE_T_SLEEP | PSTAT_STATE_T_WAIT }, { PSTAT_STATE_T_SLEEP, PSTAT_STATE_T_WAIT }, /* Turn off the thread stop bits if any thread is not stopped. This is generally reasonable, as threads are often suspended to be frobed; if they're all suspended, then something's odd (probably in the debugger, or crashed). */ { PSTAT_STATE_T_STATES & ~PSTAT_STATE_T_HALT, PSTAT_STATE_T_HALT | PSTAT_STATE_T_UNCLEAN }, { 0 } }; error_t ps_emit_state (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { char *tags; int raw_state = FG (field, int)(ps); int state = raw_state; char buf[20], *p = buf; const struct state_shadow *shadow = state_shadows; while (shadow->states) { if (raw_state & shadow->states) state &= ~shadow->shadow; shadow++; } for (tags = proc_stat_state_tags ; state != 0 && *tags != '\0' ; state >>= 1, tags++) if (state & 1) *p++ = *tags; *p = '\0'; return ps_stream_write_field (stream, buf, field->width); } error_t ps_emit_wait (struct proc_stat *ps, struct ps_fmt_field *field, struct ps_stream *stream) { int rpc; char *wait; char buf[80]; FG (field, void)(ps, &wait, &rpc); if (wait == 0) return ps_stream_write_field (stream, "?", field->width); else if (*wait == 0) return ps_stream_write_field (stream, "-", field->width); else if (strcmp (wait, "kernel") == 0) /* A syscall. RPC is actually the syscall number. */ { char *name = get_syscall_name (rpc); if (! name) { sprintf (buf, "syscall:%d", -rpc); name = buf; } return ps_stream_write_field (stream, name, field->width); } else if (rpc) /* An rpc (with msg id RPC); WAIT describes the dest port. */ { char port_name_buf[20]; char *name = get_rpc_name (rpc); /* See if we should give a more useful name for the port. */ if (strcmp (wait, "init#0") == 0) wait = "cwd"; /* Current directory */ else if (strcmp (wait, "init#1") == 0) wait = "root"; /* Root directory */ else if (strcmp (wait, "init#2") == 0) wait = "auth"; /* Auth port */ else if (strcmp (wait, "init#3") == 0) wait = "proc"; /* Proc port */ else if (strcmp (wait, "init#4") == 0) wait = "cttyid"; /* Ctty id port */ else if (strcmp (wait, "init#5") == 0) wait = "boot"; /* Bootstrap port */ else /* See if we can shorten the name to fit better. */ { char *abbrev = 0, *num = 0; if (strncmp (wait, "fd#", 3) == 0) abbrev = "fd", num = wait + 3; else if (strncmp (wait, "bgfd#", 5) == 0) abbrev = "bg", num = wait + 5; else if (strncmp (wait, "port#", 5) == 0) abbrev = "", num = wait + 5; if (abbrev) { snprintf (port_name_buf, sizeof port_name_buf, "%s%s", abbrev, num); wait = port_name_buf; } } if (name) snprintf (buf, sizeof buf, "%s:%s", wait, name); else snprintf (buf, sizeof buf, "%s:%d", wait, rpc); return ps_stream_write_field (stream, buf, field->width); } else return ps_stream_write_field (stream, wait, field->width); } /* ---------------------------------------------------------------- */ /* comparison functions */ /* Evaluates CALL if both s1 & s2 are non-NULL, and otherwise returns -1, 0, or 1 ala strcmp, considering NULL to be less than non-NULL. */ #define GUARDED_CMP(s1, s2, call) \ ((s1) == NULL ? (((s2) == NULL) ? 0 : -1) : ((s2) == NULL ? 1 : (call))) int ps_cmp_ints (struct proc_stat *ps1, struct proc_stat *ps2, const struct ps_getter *getter) { int (*gf)() = G (getter, int); int v1 = gf(ps1), v2 = gf (ps2); return v1 == v2 ? 0 : v1 < v2 ? -1 : 1; } int ps_cmp_floats (struct proc_stat *ps1, struct proc_stat *ps2, const struct ps_getter *getter) { float (*gf)() = G (getter, float); float v1 = gf(ps1), v2 = gf (ps2); return v1 == v2 ? 0 : v1 < v2 ? -1 : 1; } int ps_cmp_size_ts (struct proc_stat *ps1, struct proc_stat *ps2, const struct ps_getter *getter) { size_t (*gf)() = G (getter, size_t); size_t v1 = gf(ps1), v2 = gf (ps2); return v1 == v2 ? 0 : v1 < v2 ? -1 : 1; } int ps_cmp_uids (struct proc_stat *ps1, struct proc_stat *ps2, const struct ps_getter *getter) { struct ps_user *(*gf)() = G (getter, struct ps_user *); struct ps_user *u1 = gf (ps1), *u2 = gf (ps2); return (u1 ? ps_user_uid (u1) : -1) - (u2 ? ps_user_uid (u2) : -1); } int ps_cmp_unames (struct proc_stat *ps1, struct proc_stat *ps2, const struct ps_getter *getter) { struct ps_user *(*gf)() = G (getter, struct ps_user *); struct ps_user *u1 = gf (ps1), *u2 = gf (ps2); struct passwd *pw1 = u1 ? ps_user_passwd (u1) : 0; struct passwd *pw2 = u2 ? ps_user_passwd (u2) : 0; return GUARDED_CMP (pw1, pw2, strcmp (pw1->pw_name, pw2->pw_name)); } int ps_cmp_strings (struct proc_stat *ps1, struct proc_stat *ps2, const struct ps_getter *getter) { void (*gf)() = G (getter, void); char *s1, *s2; int s1len, s2len; /* Get both strings */ gf (ps1, &s1, &s1len); gf (ps2, &s2, &s2len); return GUARDED_CMP(s1, s2, strncmp(s1, s2, MIN (s1len, s2len))); } int ps_cmp_times (struct proc_stat *ps1, struct proc_stat *ps2, const struct ps_getter *getter) { void (*g)() = G (getter, void); struct timeval tv1, tv2; g (ps1, &tv1); g (ps2, &tv2); return tv1.tv_sec > tv2.tv_sec ? 1 : tv1.tv_sec < tv2.tv_sec ? -1 : tv1.tv_usec > tv2.tv_usec ? 1 : tv2.tv_usec < tv2.tv_usec ? -1 : 0; } /* ---------------------------------------------------------------- */ /* `Nominal' functions -- return true for `unexciting' values. */ /* For many things, zero is not so interesting. */ int ps_nominal_zint (struct proc_stat *ps, const struct ps_getter *getter) { return G (getter, int)(ps) == 0; } /* Neither is an empty string. */ int ps_nominal_string (struct proc_stat *ps, const struct ps_getter *getter) { char *str; size_t len; G (getter, char *)(ps, &str, &len); return !str || len == 0 || (len == 1 && *str == '-'); } /* Priorities are similar, but have to be converted to the unix nice scale first. */ int ps_nominal_pri (struct proc_stat *ps, const struct ps_getter *getter) { return MACH_PRIORITY_TO_NICE(G (getter, int)(ps)) == 0; } /* Hurd processes usually have 2 threads; XXX is there someplace we get get this number from? */ int ps_nominal_nth (struct proc_stat *ps, const struct ps_getter *getter) { return G (getter, int)(ps) == 2; } static int own_uid = -2; /* -1 means no uid at all. */ /* A user is nominal if it's the current user. */ int ps_nominal_user (struct proc_stat *ps, const struct ps_getter *getter) { struct ps_user *u = G (getter, struct ps_user *)(ps); if (own_uid == -2) own_uid = getuid (); return own_uid >= 0 && u && u->uid == own_uid; } /* A uid is nominal if it's that of the current user. */ int ps_nominal_uid (struct proc_stat *ps, const struct ps_getter *getter) { uid_t uid = G (getter, uid_t)(ps); if (own_uid == -2) own_uid = getuid (); return own_uid >= 0 && uid == own_uid; } /* ---------------------------------------------------------------- */ /* Returns the first entry called NAME in the vector of fmt_specs SPECS. If the result is in fact an alias entry, returns in ALIASED_TO the name of the desired source. */ static const struct ps_fmt_spec * specv_find (const struct ps_fmt_spec *specs, const char *name, char **aliased_to) { while (! ps_fmt_spec_is_end (specs)) { char *alias = index (specs->name, '='); if (alias) { unsigned name_len = strlen (name); if (name_len == alias - specs->name && strncasecmp (name, specs->name, name_len) == 0) /* SPECS is an alias, lookup what it refs to. */ { *aliased_to = alias + 1; return specs; } } else if (strcasecmp (specs->name, name) == 0) return specs; specs++; } return 0; } /* Number of specs allocated in each block of expansions. */ #define EXP_BLOCK_SIZE 20 /* A node in a linked list of spec vectors. */ struct ps_fmt_spec_block { struct ps_fmt_spec_block *next; struct ps_fmt_spec specs[EXP_BLOCK_SIZE]; }; /* Adds a new alias expansion, using fields from ALIAS, where non-zero, otherwise SRC, to SPECS. */ struct ps_fmt_spec * specs_add_alias (struct ps_fmt_specs *specs, const struct ps_fmt_spec *alias, const struct ps_fmt_spec *src) { struct ps_fmt_spec *exp; struct ps_fmt_spec_block *block; char *name_end = index (alias->name, '='); size_t name_len = name_end ? name_end - alias->name : strlen (alias->name); for (block = specs->expansions; block; block = block->next) { exp = block->specs; while (! ps_fmt_spec_is_end (exp)) exp++; if (exp + 1 < block->specs + EXP_BLOCK_SIZE) /* Found some empty space at EXP. */ break; } if (! block) /* Ran out of blocks, we gotta make a new one. */ { block = malloc (sizeof (struct ps_fmt_spec_block)); if (! block) return 0; block->next = specs->expansions; specs->expansions = block; exp = block->specs; } /* EXP gets its name from ALIAS, but only the bit before the alias marker. */ exp->name = malloc (name_len + 1); if (! exp->name) return 0; bcopy ((char *)alias->name, (char *)exp->name, name_len); ((char *)exp->name)[name_len] = '\0'; /* Copy the rest of the fields from ALIAS, but defaulting to SRC. */ exp->title = alias->title ?: src->title; exp->width = alias->width ?: src->width; exp->precision = alias->precision >= 0 ? alias->precision : src->precision; exp->flags = src->flags ^ alias->flags; exp->getter = alias->getter ?: src->getter; exp->output_fn = alias->output_fn ?: src->output_fn; exp->cmp_fn = alias->cmp_fn ?: src->cmp_fn; exp->nominal_fn = alias->nominal_fn ?: src->nominal_fn; /* Now add the list-end marker. */ bzero (exp + 1, sizeof (*exp)); return exp; } const struct ps_fmt_spec * ps_fmt_specs_find (struct ps_fmt_specs *specs, const char *name) { if (specs) /* Allow NULL to make recursion more handy. */ { struct ps_fmt_spec_block *block; char *aliased_to = 0; const struct ps_fmt_spec *s = 0; /* If SPECS contains any alias expansions, look there first. */ for (block = specs->expansions; block && !s; block = block->next) s = specv_find (block->specs, name, &aliased_to); if (! s) /* Look in the local list of specs. */ s = specv_find (specs->specs, name, &aliased_to); if (s) { if (aliased_to) { const struct ps_fmt_spec *src; /* What S is an alias to. */ if (strcasecmp (name, aliased_to) == 0) /* An alias to the same name (useful to just change some property) -- start looking up in the parent. */ src = ps_fmt_specs_find (specs->parent, aliased_to); else src = ps_fmt_specs_find (specs, aliased_to); if (! src) return 0; s = specs_add_alias (specs, s, src); } } else /* Try again with our parent. */ s = ps_fmt_specs_find (specs->parent, name); return s; } else return 0; } /* ---------------------------------------------------------------- */ static const struct ps_fmt_spec specs[] = { {"PID", 0, -5, -1, 0, &ps_pid_getter, ps_emit_int, ps_cmp_ints, 0}, {"TH", "TH#", -2, -1, 0, &ps_thread_index_getter,ps_emit_int, ps_cmp_ints, 0}, {"PPID", 0, -5, -1, 0, &ps_ppid_getter, ps_emit_int, ps_cmp_ints, 0}, {"UID", 0, -4, -1, PS_FMT_FIELD_KEEP, &ps_owner_uid_getter, ps_emit_uid, ps_cmp_ints, ps_nominal_uid}, {"User", 0, 8, -1, PS_FMT_FIELD_KEEP, &ps_owner_getter, ps_emit_uname, ps_cmp_unames, ps_nominal_user}, {"NTh", 0, -2, -1, 0, &ps_num_threads_getter, ps_emit_int, ps_cmp_ints, ps_nominal_nth}, {"PGrp", 0, -5, -1, 0, &ps_pgrp_getter, ps_emit_int, ps_cmp_ints, 0}, {"Sess", 0, -5, -1, 0, &ps_session_getter, ps_emit_int, ps_cmp_ints, 0}, {"LColl", 0, -5, -1, 0, &ps_login_col_getter, ps_emit_int, ps_cmp_ints, 0}, {"Args", 0, 0, -1, 0, &ps_args_getter, ps_emit_args, ps_cmp_strings,ps_nominal_string}, {"Arg0", 0, 0, -1, 0, &ps_args_getter, ps_emit_string, ps_cmp_strings,ps_nominal_string}, {"Env", 0, 0, -1, 0, &ps_env_getter, ps_emit_args, ps_cmp_strings,ps_nominal_string}, {"Start", 0, -7, 1, 0, &ps_start_time_getter, ps_emit_past_time, ps_cmp_times,0}, {"Time", 0, -8, 2, 0, &ps_tot_time_getter, ps_emit_seconds, ps_cmp_times, 0}, {"UTime", 0, -8, 2, 0, &ps_usr_time_getter, ps_emit_seconds, ps_cmp_times, 0}, {"STime", 0, -8, 2, 0, &ps_sys_time_getter, ps_emit_seconds, ps_cmp_times, 0}, {"VSize", 0, -5, -1, 0, &ps_vsize_getter, ps_emit_nice_size_t,ps_cmp_size_ts, 0}, {"RSize", 0, -5, -1, 0, &ps_rsize_getter, ps_emit_nice_size_t,ps_cmp_size_ts, 0}, {"Pri", 0, -3, -1, 0, &ps_cur_priority_getter,ps_emit_priority,ps_cmp_ints, ps_nominal_pri}, {"BPri", 0, -3, -1, 0, &ps_base_priority_getter,ps_emit_priority,ps_cmp_ints, ps_nominal_pri}, {"MPri", 0, -3, -1, 0, &ps_max_priority_getter,ps_emit_priority,ps_cmp_ints, ps_nominal_pri}, {"Mem", "%Mem", -4, -1, 0, &ps_rmem_frac_getter, ps_emit_percent, ps_cmp_floats, 0}, {"CPU", "%CPU", -4, -1, 0, &ps_cpu_frac_getter, ps_emit_percent, ps_cmp_floats, 0}, {"State", 0, 4, -1, 0, &ps_state_getter, ps_emit_state, 0, 0}, {"Wait", 0, 10, -1, 0, &ps_wait_getter, ps_emit_wait, 0, 0}, {"Sleep", 0, -2, -1, 0, &ps_sleep_getter, ps_emit_int, ps_cmp_ints, ps_nominal_zint}, {"Susp", 0, -2, -1, 0, &ps_susp_count_getter, ps_emit_int, ps_cmp_ints, ps_nominal_zint}, {"PSusp", 0, -2, -1, 0, &ps_proc_susp_count_getter, ps_emit_int, ps_cmp_ints, ps_nominal_zint}, {"TSusp", 0, -2, -1, 0, &ps_thread_susp_count_getter, ps_emit_int,ps_cmp_ints, ps_nominal_zint}, {"TTY", 0, -2, -1, 0, &ps_tty_getter, ps_emit_tty_name,ps_cmp_strings,0}, {"PgFlts", 0, -5, -1, 0, &ps_page_faults_getter, ps_emit_int, ps_cmp_ints, ps_nominal_zint}, {"COWFlts", 0, -5, -1, 0, &ps_cow_faults_getter, ps_emit_int, ps_cmp_ints, ps_nominal_zint}, {"PgIns", 0, -5, -1, 0, &ps_pageins_getter, ps_emit_int, ps_cmp_ints, ps_nominal_zint}, {"MsgIn", 0, -5, -1, 0, &ps_msgs_rcvd_getter, ps_emit_int, ps_cmp_ints, ps_nominal_zint}, {"MsgOut", 0, -5, -1, 0, &ps_msgs_sent_getter, ps_emit_int, ps_cmp_ints, ps_nominal_zint}, {"ZFills", 0, -5, -1, 0, &ps_zero_fills_getter, ps_emit_int, ps_cmp_ints, ps_nominal_zint}, {"Ports", 0, -5, -1, 0, &ps_num_ports_getter, ps_emit_int, ps_cmp_ints, 0}, {0} }; struct ps_fmt_specs ps_std_fmt_specs = { specs, 0 };