/***************************************************************************** * * $Id$ * Purpose ...............: Keep track of server status * ***************************************************************************** * Copyright (C) 1997-2001 * * Michiel Broek FIDO: 2:280/2802 * Beekmansbos 10 * 1971 BV IJmuiden * the Netherlands * * This file is part of MBSE BBS. * * This BBS 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. * * MB BBS 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 MB BBS; see the file COPYING. If not, write to the Free * Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. *****************************************************************************/ #include "libs.h" #include "../lib/structs.h" #include "taskstat.h" #include "callstat.h" #include "outstat.h" #include "taskutil.h" /* * Semafores */ int s_scanout = FALSE; int s_mailout = FALSE; int s_mailin = FALSE; int s_reqindex = FALSE; int s_index = FALSE; int s_msglink = FALSE; int s_newnews = FALSE; int s_bbsopen = FALSE; int s_do_inet = FALSE; extern int UPSalarm; extern int ptimer; extern struct taskrec TCFG; extern int internet; extern int ZMH; typedef struct { long tot_clt; /* Total client connects */ long peak_clt; /* Peak simultaneous tot_cltes */ long s_error; /* Syntax errors from clients */ long c_error; /* Comms errors from clients */ } cl_stat; typedef struct { time_t start; /* Start date/time */ time_t laststart; /* Last start date/time */ time_t daily; /* Last daily update */ long startups; /* Total starts */ long clients; /* Connected clients */ cl_stat total; /* Total statistics */ cl_stat today; /* Todays statistics */ unsigned open : 1; /* Is BBS open */ unsigned long sequence; /* Sequencer counter */ } status_r; static char stat_fn[PATH_MAX]; /* Statusfile name */ static status_r status; /* Status data */ extern float Load; /* System Load */ extern int Processing; /* Is system running */ /************************************************************************ * * Initialize the statusfile, create it if necesary. */ void status_init() { size_t cnt; int stat_fd; sprintf(stat_fn, "%s/var/status.mbsed", getenv("MBSE_ROOT")); /* * First check if this is the very first time we start the show. * If so, we generate an empty status file with only the start * date in it. */ stat_fd = open(stat_fn, O_RDWR); if (stat_fd == -1) { memset((char *)&status, 0, sizeof(status_r)); status.start = time(NULL); status.daily = time(NULL); status.sequence = (unsigned long)time(NULL); stat_fd = open(stat_fn, O_CREAT | O_RDWR, S_IRUSR | S_IWUSR); cnt = write(stat_fd, &status, sizeof(status_r)); tasklog('+', "New statusfile created"); lseek(stat_fd, 0, SEEK_SET); } cnt = read(stat_fd, &status, sizeof(status_r)); if (cnt != sizeof(status_r)) { printf("Error reading status file\n"); exit(1); } status.startups++; status.laststart = time(NULL); status.clients = 1; /* We are a client ourself */ s_bbsopen = status.open; lseek(stat_fd, 0, SEEK_SET); cnt = write(stat_fd, &status, sizeof(status_r)); if (cnt != sizeof(status_r)) { tasklog('?', "$Error rewrite status file\n"); exit(1); } close(stat_fd); } /* * Writeback the updated status record. */ void status_write(void); void status_write(void) { int d, stat_fd; struct tm *ttm, *ytm; time_t temp; temp = time(NULL); ttm = localtime(&temp); temp = status.daily; // On a Sparc, first put the time in temp, then pass it to locattime. ytm = localtime(&temp); /* * If we passed to the next day, zero the today counters */ if (ttm->tm_yday != ytm->tm_yday) { tasklog('+', "Last days statistics:"); tasklog('+', "Total clients : %lu", status.today.tot_clt); tasklog('+', "Peak clients : %lu", status.today.peak_clt); tasklog('+', "Syntax errors : %lu", status.today.s_error); tasklog('+', "Comms errors : %lu", status.today.c_error); memset((char *)&status.today, 0, sizeof(cl_stat)); status.daily = time(NULL); tasklog('+', "Zeroed todays status counters"); } if ((stat_fd = open(stat_fn, O_RDWR)) == -1) { tasklog('?', "$Error open statusfile %s", stat_fn); return; } if ((d = lseek(stat_fd, 0, SEEK_SET)) != 0) { tasklog('?', "$Error seeking in statusfile"); return; } d = write(stat_fd, &status, sizeof(status_r)); if (d != sizeof(status_r)) tasklog('?', "$Error writing statusfile, only %d bytes", d); /* * CLose the statusfile */ if (close(stat_fd) != 0) tasklog('?', "$Error closing statusfile"); } /************************************************************************* * * Various actions on the statusfile. */ /* * Check for Zone Mail Hour, return TRUE if it is. */ int get_zmh() { struct tm *l_date; char sstime[6]; time_t Now; Now = time(NULL); l_date = gmtime(&Now); sprintf(sstime, "%02d:%02d", l_date->tm_hour, l_date->tm_min); if ((strncmp(sstime, TCFG.zmh_start, 5) >= 0) && (strncmp(sstime, TCFG.zmh_end, 5) < 0)) { if (!ZMH) { CreateSema((char *)"zmh"); tasklog('!', "Start of Zone Mail Hour"); ZMH = TRUE; } } else { if (ZMH) { RemoveSema((char *)"zmh"); tasklog('!', "End of Zone Mail Hour"); ZMH = FALSE; } } return ZMH; } void stat_inc_clients() { status.clients++; status.total.tot_clt++; status.today.tot_clt++; if (status.clients >= status.total.peak_clt) status.total.peak_clt = status.clients; if (status.clients >= status.today.peak_clt) status.today.peak_clt = status.clients; status_write(); } void stat_dec_clients() { status.clients--; status_write(); } void stat_set_open(int op) { if (op) { if (!s_bbsopen) { tasklog('!', "The bbs is open"); sem_set((char *)"scanout", TRUE); } } else { if (s_bbsopen) { tasklog('!', "The bbs is closed"); } } s_bbsopen = status.open = op; status_write(); } void stat_inc_serr() { status.total.s_error++; status.today.s_error++; status_write(); } void stat_inc_cerr() { status.total.c_error++; status.today.c_error++; status_write(); } char *stat_status() { static char buf[160]; buf[0] = '\0'; sprintf(buf, "100:20,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%d,%d,%d,%d,%d,%2.2f,%lu;", status.start, status.laststart, status.daily, status.startups, status.clients, status.total.tot_clt, status.total.peak_clt, status.total.s_error, status.total.c_error, status.today.tot_clt, status.today.peak_clt, status.today.s_error, status.today.c_error, status.open, get_zmh(), internet, s_do_inet, Processing, Load, status.sequence); return buf; } /* * Return open status: * 0 = open. * 1 = closed. * 2 = Zone Mail Hour. */ int stat_bbs_stat() { if (!status.open) return 1; if (get_zmh()) return 2; return 0; } /* * Get next sequence number */ char *getseq(void) { static char buf[80]; buf[0] = '\0'; status.sequence++; status_write(); sprintf(buf, "100:1,%lu;", status.sequence); return buf; } int sem_set(char *sem, int value) { tasklog('s', "sem_set(%s, %s)", sem, value?"TRUE":"FALSE"); if (!strcmp(sem, "scanout")) { s_scanout = value; } else if (!strcmp(sem, "mailout")) { s_mailout = value; } else if (!strcmp(sem, "mailin")) { s_mailin = value; } else if (!strcmp(sem, "mbindex")) { s_index = value; } else if (!strcmp(sem, "newnews")) { s_newnews = value; } else if (!strcmp(sem, "msglink")) { s_msglink = value; } else if (!strcmp(sem, "reqindex")) { s_reqindex = value; } else if (!strcmp(sem, "do_inet")) { s_do_inet = value; } else { return FALSE; } ptimer = PAUSETIME; return TRUE; } char *sem_status(char *data) { char *cnt, *sem; static char buf[40]; int value; buf[0] = '\0'; sprintf(buf, "200:1,16;"); cnt = strtok(data, ","); sem = strtok(NULL, ";"); if (!strcmp(sem, "scanout")) { value = s_scanout; } else if (!strcmp(sem, "mailout")) { value = s_mailout; } else if (!strcmp(sem, "mailin")) { value = s_mailin; } else if (!strcmp(sem, "mbindex")) { value = s_index; } else if (!strcmp(sem, "newnews")) { value = s_newnews; } else if (!strcmp(sem, "msglink")) { value = s_msglink; } else if (!strcmp(sem, "reqindex")) { value = s_reqindex; } else if (!strcmp(sem, "upsalarm")) { value = UPSalarm; } else if (!strcmp(sem, "do_inet")) { value = s_do_inet; } else { tasklog('s', "sem_status(%s) buf=%s", sem, buf); return buf; } sprintf(buf, "100:1,%s;", value ? "1":"0"); tasklog('s', "sem_status(%s) = %d buf=%s", sem, value, buf); return buf; } char *sem_create(char *data) { static char buf[40]; char *cnt, *sem; cnt = strtok(data, ","); sem = strtok(NULL, ";"); buf[0] = '\0'; sprintf(buf, "200:1,16;"); if (sem_set(sem, TRUE)) sprintf(buf, "100:0;"); return buf; } char *sem_remove(char *data) { static char buf[40]; char *cnt, *sem; cnt = strtok(data, ","); sem = strtok(NULL, ";"); buf[0] = '\0'; sprintf(buf, "200:1,16;"); if (sem_set(sem, FALSE)) sprintf(buf, "100:0;"); return buf; }