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deb-mbse/mbtask/mbtask.c
2002-02-09 12:46:31 +00:00

1742 lines
49 KiB
C

/*****************************************************************************
*
* $Id$
* Purpose ...............: MBSE BBS Task Manager
*
*****************************************************************************
* Copyright (C) 1997-2002
*
* 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.
*
* MBSE 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 MBSE 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 "signame.h"
#include "taskstat.h"
#include "taskutil.h"
#include "taskregs.h"
#include "taskcomm.h"
#include "callstat.h"
#include "outstat.h"
#include "nodelist.h"
#include "mbtask.h"
/*
* Defines.
* SLOWRUN is number of seconds for scheduling mailer calls. Leave at 20!
*/
#define MAXTASKS 10
#define SLOWRUN 20
#define TMPNAME "TMP."
#define LCKNAME "LOCKTASK"
#define ICMP_BASEHDR_LEN 8
#define ICMP_MAX_ERRS 5
#define SET_SOCKA_LEN4(socka)
typedef enum {P_INIT, P_SENT, P_FAIL, P_OK, P_ERROR, P_NONE} PINGSTATE;
/*
* Global variables
*/
static onetask task[MAXTASKS]; /* Array with tasks */
static tocall calllist[MAXTASKS]; /* Array with calllist */
reg_info reginfo[MAXCLIENT]; /* Array with clients */
static pid_t pgrp; /* Pids group */
static char lockfile[PATH_MAX]; /* Lockfile */
int sock = -1; /* Datagram socket */
struct sockaddr_un servaddr; /* Server address */
struct sockaddr_un from; /* From address */
int fromlen;
static char spath[PATH_MAX]; /* Socket path */
int logtrans = 0; /* Log transactions */
struct taskrec TCFG; /* Task config record */
struct sysconfig CFG; /* System config */
struct _nodeshdr nodeshdr; /* Nodes header record */
struct _nodes nodes; /* Nodes data record */
struct _fidonethdr fidonethdr; /* Fidonet header rec. */
struct _fidonet fidonet; /* Fidonet data record */
time_t tcfg_time; /* Config record time */
time_t cfg_time; /* Config record time */
time_t tty_time; /* TTY config time */
char tcfgfn[PATH_MAX]; /* Config file name */
char cfgfn[PATH_MAX]; /* Config file name */
char ttyfn[PATH_MAX]; /* TTY file name */
int ping_isocket; /* Ping socket */
int icmp_errs = 0; /* ICMP error counter */
int internet = FALSE; /* Internet is down */
double Load; /* System Load */
int Processing; /* Is system running */
int ZMH = FALSE; /* Zone Mail Hour */
int UPSalarm = FALSE; /* UPS alarm status */
extern int s_bbsopen; /* BBS open semafore */
extern int s_scanout; /* Scan outbound sema */
extern int s_mailout; /* Mail out semafore */
extern int s_mailin; /* Mail in semafore */
extern int s_index; /* Compile nl semafore */
extern int s_newnews; /* New news semafore */
extern int s_reqindex; /* Create req index sem */
extern int s_msglink; /* Messages link sem */
extern int s_do_inet; /* Internet wanted */
int pingstate = P_INIT; /* Ping state */
int pingnr = 1; /* Ping #, 1 or 2 */
int pingresult[2]; /* Ping results */
char pingaddress[41]; /* Ping current address */
int masterinit = FALSE; /* Master init needed */
int ptimer = PAUSETIME; /* Pause timer */
int tflags = FALSE; /* if nodes with Txx */
extern int nxt_hour; /* Next event hour */
extern int nxt_min; /* Next event minute */
extern _alist_l *alist; /* Nodes to call list */
extern int pots_calls;
extern int isdn_calls;
extern int inet_calls;
/*
* Load main configuration, if it doesn't exist, create it.
* This is the case the very first time when you start MBSE BBS.
*/
void load_maincfg(void)
{
FILE *fp;
struct utsname un;
int i;
if ((fp = fopen(cfgfn, "r")) == NULL) {
masterinit = TRUE;
memset(&CFG, 0, sizeof(CFG));
/*
* Fill Registration defaults
*/
sprintf(CFG.bbs_name, "MBSE BBS");
uname((struct utsname *)&un);
#ifdef __USE_GNU
sprintf(CFG.sysdomain, "%s.%s", un.nodename, un.domainname);
#else
#ifdef __linux__
sprintf(CFG.sysdomain, "%s.%s", un.nodename, un.__domainname);
#endif
#endif
sprintf(CFG.comment, "MBSE BBS development");
sprintf(CFG.origin, "MBSE BBS. Made in the Netherlands");
sprintf(CFG.location, "Earth");
/*
* Fill Filenames defaults
*/
sprintf(CFG.logfile, "system.log");
sprintf(CFG.error_log, "error.log");
sprintf(CFG.default_menu, "main.mnu");
sprintf(CFG.current_language, "english.lang");
sprintf(CFG.chat_log, "chat.log");
sprintf(CFG.welcome_logo, "logo.asc");
/*
* Fill Global defaults
*/
sprintf(CFG.bbs_menus, "%s/english/menus", getenv("MBSE_ROOT"));
sprintf(CFG.bbs_txtfiles, "%s/english/txtfiles", getenv("MBSE_ROOT"));
sprintf(CFG.bbs_usersdir, "%s/home", getenv("MBSE_ROOT"));
sprintf(CFG.nodelists, "%s/var/nodelist", getenv("MBSE_ROOT"));
sprintf(CFG.inbound, "%s/var/unknown", getenv("MBSE_ROOT"));
sprintf(CFG.pinbound, "%s/var/inbound", getenv("MBSE_ROOT"));
sprintf(CFG.outbound, "%s/var/bso/outbound", getenv("MBSE_ROOT"));
sprintf(CFG.msgs_path, "%s/var/msgs", getenv("MBSE_ROOT"));
sprintf(CFG.uxpath, "%s", getenv("MBSE_ROOT"));
sprintf(CFG.badtic, "%s/var/badtic", getenv("MBSE_ROOT"));
sprintf(CFG.ticout, "%s/var/ticqueue", getenv("MBSE_ROOT"));
sprintf(CFG.req_magic, "%s/magic", getenv("MBSE_ROOT"));
CFG.leavecase = TRUE;
/*
* Newfiles reports
*/
sprintf(CFG.ftp_base, "%s/ftp/pub", getenv("MBSE_ROOT"));
CFG.newdays = 30;
CFG.security.level = 20;
CFG.new_split = 27;
CFG.new_force = 30;
/*
* BBS Globals
*/
CFG.CityLen = 6;
CFG.max_login = 5;
CFG.exclude_sysop = TRUE;
CFG.iConnectString = FALSE;
CFG.iAskFileProtocols = FALSE;
CFG.sysop_access = 32000;
CFG.password_length = 4;
CFG.iPasswd_Char = '.';
CFG.idleout = 3;
CFG.iQuota = 10;
CFG.iCRLoginCount = 10;
CFG.bbs_loglevel = DLOG_ALLWAYS | DLOG_ERROR | DLOG_ATTENT | DLOG_NORMAL | DLOG_VERBOSE;
CFG.util_loglevel = DLOG_ALLWAYS | DLOG_ERROR | DLOG_ATTENT | DLOG_NORMAL | DLOG_VERBOSE;
CFG.OLR_NewFileLimit = 30;
CFG.OLR_MaxReq = 25;
CFG.slow_util = TRUE;
CFG.iCrashLevel = 100;
CFG.iAttachLevel = 100;
CFG.new_groups = 25;
CFG.slow_util = TRUE;
CFG.iCrashLevel = 100;
CFG.iAttachLevel = 100;
CFG.new_groups = 25;
sprintf(CFG.startname, "bbs");
CFG.freespace = 10;
/*
* New Users
*/
CFG.newuser_access.level = 20;
CFG.iCapUserName = TRUE;
CFG.iAnsi = TRUE;
CFG.iDataPhone = TRUE;
CFG.iVoicePhone = TRUE;
CFG.iDOB = TRUE;
CFG.iTelephoneScan = TRUE;
CFG.iLocation = TRUE;
CFG.iHotkeys = TRUE;
CFG.iCapLocation = FALSE;
CFG.AskAddress = TRUE;
CFG.GiveEmail = TRUE;
/*
* Colors
*/
CFG.TextColourF = 3;
CFG.TextColourB = 0;
CFG.UnderlineColourF = 14;
CFG.UnderlineColourB = 0;
CFG.InputColourF = 11;
CFG.InputColourB = 0;
CFG.CRColourF = 15;
CFG.CRColourB = 0;
CFG.MoreF = 13;
CFG.MoreB = 0;
CFG.HiliteF = 15;
CFG.HiliteB = 0;
CFG.FilenameF = 14;
CFG.FilenameB = 0;
CFG.FilesizeF = 13;
CFG.FilesizeB = 0;
CFG.FiledateF = 10;
CFG.FiledateB = 0;
CFG.FiledescF = 3;
CFG.FiledescB = 0;
CFG.MsgInputColourF = 3;
CFG.MsgInputColourB = 0;
/*
* NextUser Door
*/
sprintf(CFG.sNuScreen, "welcome");
sprintf(CFG.sNuQuote, "Please press [ENTER] to continue: ");
/*
* Safe Door
*/
CFG.iSafeFirstDigit = 1;
CFG.iSafeSecondDigit = 2;
CFG.iSafeThirdDigit = 3;
CFG.iSafeMaxTrys = 4;
CFG.iSafeMaxNumber = 20;
CFG.iSafeNumGen = FALSE;
strcpy(CFG.sSafePrize, "Free access for a year!");
sprintf(CFG.sSafeWelcome, "safewel");
sprintf(CFG.sSafeOpened, "safeopen");
/*
* Paging
*/
CFG.iPageLength = 30;
CFG.iMaxPageTimes = 5;
CFG.iAskReason = TRUE;
CFG.iSysopArea = 1;
CFG.iExternalChat = FALSE;
strcpy(CFG.sExternalChat, "/usr/local/bin/chat");
CFG.iAutoLog = TRUE;
strcpy(CFG.sChatDevice, "/dev/tty01");
CFG.iChatPromptChk = TRUE;
CFG.iStopChatTime = TRUE;
for (i = 0; i < 7; i++) {
sprintf(CFG.cStartTime[i], "18:00");
sprintf(CFG.cStopTime[i], "23:59");
}
/*
* Time Bank
*/
CFG.iMaxTimeBalance = 200;
CFG.iMaxTimeWithdraw = 100;
CFG.iMaxTimeDeposit = 60;
CFG.iMaxByteBalance = 500;
CFG.iMaxByteWithdraw = 300;
CFG.iMaxByteDeposit = 150;
strcpy(CFG.sTimeRatio, "3:1");
strcpy(CFG.sByteRatio, "3:1");
/*
* Fill ticconf defaults
*/
CFG.ct_ResFuture = TRUE;
CFG.ct_ReplExt = TRUE;
CFG.ct_PlusAll = TRUE;
CFG.ct_Notify = TRUE;
CFG.ct_Message = TRUE;
CFG.ct_TIC = TRUE;
CFG.tic_days = 30;
sprintf(CFG.hatchpasswd, "DizIzMyBIGseeKret");
CFG.drspace = 2048;
CFG.tic_systems = 10;
CFG.tic_groups = 25;
CFG.tic_dupes = 16000;
/*
* Fill Mail defaults
*/
CFG.maxpktsize = 150;
CFG.maxarcsize = 300;
sprintf(CFG.badboard, "%s/var/mail/badmail", getenv("MBSE_ROOT"));
sprintf(CFG.dupboard, "%s/var/mail/dupemail", getenv("MBSE_ROOT"));
sprintf(CFG.popnode, "localhost");
sprintf(CFG.smtpnode, "localhost");
sprintf(CFG.nntpnode, "localhost");
CFG.toss_days = 30;
CFG.toss_dupes = 16000;
CFG.toss_old = 60;
CFG.defmsgs = 500;
CFG.defdays = 90;
CFG.toss_systems = 10;
CFG.toss_groups = 25;
CFG.UUCPgate.zone = 2;
CFG.UUCPgate.net = 292;
CFG.UUCPgate.node = 875;
sprintf(CFG.UUCPgate.domain, "fidonet");
CFG.nntpdupes = 16000;
for (i = 0; i < 32; i++)
sprintf(CFG.fname[i], "Flag %d", i+1);
/*
* Fido mailer defaults
*/
CFG.timeoutreset = 3L;
CFG.timeoutconnect = 60L;
sprintf(CFG.phonetrans[0].match, "31-255");
sprintf(CFG.phonetrans[1].match, "31-");
sprintf(CFG.phonetrans[1].repl, "0");
sprintf(CFG.phonetrans[2].repl, "00");
CFG.Speed = 9600;
CFG.dialdelay = 60;
sprintf(CFG.Flags, "CM,XX,IBN,IFC,ITN");
CFG.cico_loglevel = DLOG_ALLWAYS | DLOG_ERROR | DLOG_ATTENT | DLOG_NORMAL | DLOG_VERBOSE;
/*
* FTP Server
*/
CFG.ftp_limit = 20;
CFG.ftp_loginfails = 2;
CFG.ftp_compress = TRUE;
CFG.ftp_tar = TRUE;
CFG.ftp_log_cmds = TRUE;
CFG.ftp_anonymousok = TRUE;
CFG.ftp_mbseok = FALSE;
sprintf(CFG.ftp_readme_login, "README*");
sprintf(CFG.ftp_readme_cwd, "README*");
sprintf(CFG.ftp_msg_login, "/welcome.msg");
sprintf(CFG.ftp_msg_cwd, ".message");
sprintf(CFG.ftp_msg_shutmsg, "/etc/nologin");
sprintf(CFG.ftp_upl_path, "%s/ftp/incoming", getenv("MBSE_ROOT"));
sprintf(CFG.ftp_banner, "%s/etc/ftpbanner", getenv("MBSE_ROOT"));
sprintf(CFG.ftp_email, "sysop@%s", CFG.sysdomain);
sprintf(CFG.ftp_pth_filter, "^[-A-Za-z0-9_\\.]*$ ^\\. ^-");
sprintf(CFG.ftp_pth_message, "%s/etc/pathmsg", getenv("MBSE_ROOT"));
/*
* WWW defaults
*/
sprintf(CFG.www_root, "/var/www/htdocs");
sprintf(CFG.www_link2ftp, "files");
sprintf(CFG.www_url, "http://%s", CFG.sysdomain);
sprintf(CFG.www_charset, "ISO 8859-1");
sprintf(CFG.www_tbgcolor, "Silver");
sprintf(CFG.www_hbgcolor, "Aqua");
sprintf(CFG.www_author, "Your Name");
sprintf(CFG.www_convert,"/usr/X11R6/bin/convert -geometry x100");
sprintf(CFG.www_icon_home, "up.gif");
sprintf(CFG.www_name_home, "Home");
sprintf(CFG.www_icon_back, "back.gif");
sprintf(CFG.www_name_back, "Back");
sprintf(CFG.www_icon_prev, "left.gif");
sprintf(CFG.www_name_prev, "Previous page");
sprintf(CFG.www_icon_next, "right.gif");
sprintf(CFG.www_name_next, "Next page");
CFG.www_files_page = 10;
CFG.maxarticles = 500;
if ((fp = fopen(cfgfn, "a+")) == NULL) {
perror("");
fprintf(stderr, "Can't create %s\n", cfgfn);
exit(2);
}
fwrite(&CFG, sizeof(CFG), 1, fp);
fclose(fp);
chmod(cfgfn, 0640);
} else {
fread(&CFG, sizeof(CFG), 1, fp);
fclose(fp);
}
cfg_time = file_time(cfgfn);
}
/*
* Load task configuration data.
*/
void load_taskcfg(void)
{
FILE *fp;
if ((fp = fopen(tcfgfn, "r")) == NULL) {
memset(&TCFG, 0, sizeof(TCFG));
TCFG.maxload = 1.50;
sprintf(TCFG.zmh_start, "02:30");
sprintf(TCFG.zmh_end, "03:30");
sprintf(TCFG.cmd_mailout, "%s/bin/mbfido scan web -quiet", getenv("MBSE_ROOT"));
sprintf(TCFG.cmd_mailin, "%s/bin/mbfido tic toss web -quiet", getenv("MBSE_ROOT"));
sprintf(TCFG.cmd_newnews, "%s/bin/mbfido news web -quiet", getenv("MBSE_ROOT"));
sprintf(TCFG.cmd_mbindex1, "%s/bin/mbindex -quiet", getenv("MBSE_ROOT"));
sprintf(TCFG.cmd_mbindex2, "%s/bin/goldnode -f -q", getenv("MBSE_ROOT"));
sprintf(TCFG.cmd_msglink, "%s/bin/mbmsg link -quiet", getenv("MBSE_ROOT"));
sprintf(TCFG.cmd_reqindex, "%s/bin/mbfile index -quiet", getenv("MBSE_ROOT"));
TCFG.ipblocks = TRUE;
TCFG.debug = FALSE;
TCFG.max_pots = 1;
TCFG.max_isdn = 0;
TCFG.max_tcp = 0;
sprintf(TCFG.isp_ping1, "192.168.1.1");
sprintf(TCFG.isp_ping2, "192.168.1.1");
if ((fp = fopen(tcfgfn, "a+")) == NULL) {
tasklog('?', "$Can't create %s", tcfgfn);
die(2);
}
fwrite(&TCFG, sizeof(TCFG), 1, fp);
fclose(fp);
chmod(tcfgfn, 0640);
tasklog('+', "Created new %s", tcfgfn);
} else {
fread(&TCFG, sizeof(TCFG), 1, fp);
fclose(fp);
}
tcfg_time = file_time(tcfgfn);
}
/*
* Check the actual list of nodes to call.
*/
int check_calllist(void);
int check_calllist(void)
{
int i, found, call_work;
struct _alist *tmp;
/*
* Check callist, remove obsolete entries.
*/
for (i = 0; i < MAXTASKS; i++) {
if (calllist[i].addr.zone) {
found = FALSE;
for (tmp = alist; tmp; tmp = tmp->next) {
if ((calllist[i].addr.zone == tmp->addr.zone) && (calllist[i].addr.net == tmp->addr.net) &&
(calllist[i].addr.node == tmp->addr.node) && (calllist[i].addr.point == tmp->addr.point) &&
((tmp->flavors) & F_CALL)) {
found = TRUE;
}
}
if (!found) {
tasklog('c', "Removing slot %d node %s from calllist", i, ascfnode(calllist[i].addr, 0x0f));
memset(&calllist[i], 0, sizeof(tocall));
}
}
}
if (pots_calls || isdn_calls || inet_calls) {
call_work = 0;
for (tmp = alist; tmp; tmp = tmp->next) {
if (tmp->callmode != CM_NONE) {
call_work++;
found = FALSE;
for (i = 0; i < MAXTASKS; i++) {
if ((calllist[i].addr.zone == tmp->addr.zone) && (calllist[i].addr.net == tmp->addr.net) &&
(calllist[i].addr.node == tmp->addr.node) && (calllist[i].addr.point == tmp->addr.point)) {
found = TRUE;
/*
* Refresh last call status
*/
calllist[i].cst = tmp->cst;
}
}
if (!found) {
for (i = 0; i < MAXTASKS; i++) {
if (!calllist[i].addr.zone) {
tasklog('c', "Adding %s to calllist slot %d", ascfnode(tmp->addr, 0x1f), i);
calllist[i].addr = tmp->addr;
calllist[i].cst = tmp->cst;
calllist[i].callmode = tmp->callmode;
calllist[i].moflags = tmp->moflags;
calllist[i].diflags = tmp->diflags;
calllist[i].ipflags = tmp->ipflags;
break;
}
}
}
}
}
tasklog('o', "%d systems to call", call_work);
} else {
if (s_scanout)
sem_set((char *)"scanout", FALSE);
}
/*
* Check if we need to remove the do_inet semafore
*/
if (!inet_calls && internet && s_do_inet) {
tasklog('c', "Removing do_inet semafore");
s_do_inet = FALSE;
if (IsSema((char *)"do_inet")) {
RemoveSema((char *)"do_inet");
}
}
call_work = 0;
for (i = 0; i < MAXTASKS; i++) {
if (calllist[i].addr.zone) {
if (!call_work) {
tasklog('c', "Slot Call Pid Try Status Mode Modem ISDN TCP/IP Address");
tasklog('c', "---- ----- ----- --- ------- ------- -------- -------- -------- ----------------");
}
call_work++;
tasklog('c', "%4d %s %5d %3d %s %s %08x %08x %08x %s", i, calllist[i].calling?"true ":"false", calllist[i].taskpid,
calllist[i].cst.tryno, callstatus(calllist[i].cst.trystat), callmode(calllist[i].callmode),
calllist[i].moflags, calllist[i].diflags, calllist[i].ipflags, ascfnode(calllist[i].addr, 0x1f));
}
}
return call_work;
}
/*
* Launch an external program in the background.
* On success add it to the tasklist and return
* the pid. Set the pause timer.
*/
pid_t launch(char *cmd, char *opts, char *name, int tasktype)
{
char buf[PATH_MAX];
char *vector[16];
int i, rc = 0;
pid_t pid = 0;
if (checktasks(0) >= MAXTASKS) {
tasklog('?', "Launch: can't execute %s, maximum tasks reached", cmd);
return 0;
}
if (opts == NULL)
sprintf(buf, "%s", cmd);
else
sprintf(buf, "%s %s", cmd, opts);
i = 0;
vector[i++] = strtok(buf," \t\n\0");
while ((vector[i++] = strtok(NULL," \t\n")) && (i<16));
vector[15] = NULL;
if (file_exist(vector[0], X_OK)) {
tasklog('?', "Launch: can't execute %s, command not found", vector[0]);
return 0;
}
pid = fork();
switch (pid) {
case -1:
tasklog('?', "$Launch: error, can't fork grandchild");
return 0;
case 0:
/* From Paul Vixies cron: */
(void)setsid(); /* It doesn't seem to help */
close(0);
if (open("/dev/null", O_RDONLY) != 0) {
tasklog('?', "$Launch: \"%s\": reopen of stdin to /dev/null failed", buf);
_exit(-1);
}
close(1);
if (open("/dev/null", O_WRONLY | O_APPEND | O_CREAT,0600) != 1) {
tasklog('?', "$Launch: \"%s\": reopen of stdout to /dev/null failed", buf);
_exit(-1);
}
close(2);
if (open("/dev/null", O_WRONLY | O_APPEND | O_CREAT,0600) != 2) {
tasklog('?', "$Launch: \"%s\": reopen of stderr to /dev/null failed", buf);
_exit(-1);
}
errno = 0;
rc = execv(vector[0],vector);
tasklog('?', "$Launch: execv \"%s\" failed, returned %d", cmd, rc);
_exit(-1);
default:
/* grandchild's daddy's process */
break;
}
/*
* Add it to the tasklist.
*/
for (i = 0; i < MAXTASKS; i++) {
if (strlen(task[i].name) == 0) {
strcpy(task[i].name, name);
strcpy(task[i].cmd, cmd);
if (opts)
strcpy(task[i].opts, opts);
task[i].pid = pid;
task[i].status = 0;
task[i].running = TRUE;
task[i].rc = 0;
task[i].tasktype = tasktype;
break;
}
}
ptimer = PAUSETIME;
if (opts)
tasklog('+', "Launch: task %d \"%s %s\" success, pid=%d", i, cmd, opts, pid);
else
tasklog('+', "Launch: task %d \"%s\" success, pid=%d", i, cmd, pid);
return pid;
}
/*
* Count specific running tasks
*/
int runtasktype(int tasktype)
{
int i, count = 0;
for (i = 0; i < MAXTASKS; i++) {
if (strlen(task[i].name) && task[i].running && (task[i].tasktype == tasktype))
count++;
}
return count;
}
/*
* Check all running tasks registered in the tasklist.
* Report programs that are stopped. If signal is set
* then send that signal.
*/
int checktasks(int onsig)
{
int i, j, rc, count = 0, first = TRUE, status, do_outstat = FALSE;
for (i = 0; i < MAXTASKS; i++) {
if (strlen(task[i].name)) {
if (onsig) {
if (kill(task[i].pid, onsig) == 0)
tasklog('+', "%s to %s (pid %d) succeeded", SigName[onsig], task[i].name, task[i].pid);
else
tasklog('+', "%s to %s (pid %d) failed", SigName[onsig], task[i].name, task[i].pid);
}
task[i].rc = wait4(task[i].pid, &status, WNOHANG | WUNTRACED, NULL);
if (task[i].rc) {
task[i].running = FALSE;
if (task[i].tasktype == CM_POTS || task[i].tasktype == CM_ISDN || task[i].tasktype == CM_INET)
do_outstat = TRUE;
ptimer = PAUSETIME;
}
if (first && task[i].rc) {
first = FALSE;
tasklog('t', "Task Type pid stat status rc status");
tasklog('t', "---------------- ------- ----- ---- ----------- ----- --------");
for (j = 0; j < MAXTASKS; j++)
if (strlen(task[j].name))
tasklog('t', "%-16s %s %5d %s %-11d %5d %08x", task[j].name,
callmode(task[j].tasktype), task[j].pid, task[j].running?"runs":"stop",
task[j].status, task[j].rc, task[j].status);
}
switch (task[i].rc) {
case -1:
if (errno == ECHILD)
tasklog('+', "Task %d \"%s\" is ready", i, task[i].name);
else
tasklog('+', "Task %d \"%s\" is ready, error: %s", i, task[i].name, strerror(errno));
break;
case 0:
/*
* Update last known status when running.
*/
task[i].status = status;
count++;
break;
default:
tasklog('+', "errno=%d %s", errno, strerror(errno));
if (WIFEXITED(task[i].status)) {
rc = WEXITSTATUS(task[i].status);
if (rc)
tasklog('+', "Task %s is ready, error=%d", task[i].name, rc);
else
tasklog('+', "Task %s is ready", task[i].name);
} else if (WIFSIGNALED(task[i].status)) {
rc = WTERMSIG(task[i].status);
if (rc <= 31)
tasklog('+', "Task %s terminated on signal %s (%d)", task[i].name, SigName[rc], rc);
else
tasklog('+', "Task %s terminated with error nr %d", task[i].name, rc);
} else if (WIFSTOPPED(task[i].status)) {
rc = WSTOPSIG(task[i].status);
tasklog('+', "Task %s stopped on signal %s (%d)", task[i].name, SigName[rc], rc);
} else {
tasklog('+', "FIXME: 1");
}
break;
}
if (!task[i].running) {
for (j = 0; j < MAXTASKS; j++) {
if (calllist[j].taskpid == task[i].pid) {
calllist[j].calling = FALSE;
calllist[j].taskpid = 0;
}
}
memset(&task[i], 0, sizeof(onetask));
}
}
}
if (do_outstat) {
outstat();
check_calllist();
}
return count;
}
void die(int onsig)
{
int i, count;
signal(onsig, SIG_IGN);
tasklog('+', "Shutting down on signal %s", SigName[onsig]);
/*
* First check if there are tasks running, if so try to stop them
*/
if ((count = checktasks(0))) {
tasklog('+', "There are %d tasks running, sending SIGTERM", count);
checktasks(SIGTERM);
for (i = 0; i < 15; i++) {
sleep(1);
count = checktasks(0);
if (count == 0)
break;
}
if (count) {
/*
* There are some diehards running...
*/
tasklog('+', "There are %d tasks running, sending SIGKILL", count);
count = checktasks(SIGKILL);
}
if (count) {
sleep(1);
count = checktasks(0);
if (count)
tasklog('?', "Still %d tasks running, giving up", count);
}
}
ulocktask();
if (sock != -1)
close(sock);
if (ping_isocket != -1)
close(ping_isocket);
if (!file_exist(spath, R_OK)) {
unlink(spath);
}
tasklog(' ', "MBTASK finished");
exit(onsig);
}
/*
* Put a lock on this program.
*/
int locktask(char *root)
{
char Tmpfile[81];
FILE *fp;
pid_t oldpid;
sprintf(Tmpfile, "%s/var/", root);
strcpy(lockfile, Tmpfile);
sprintf(Tmpfile + strlen(Tmpfile), "%s%u", TMPNAME, getpid());
sprintf(lockfile + strlen(lockfile), "%s", LCKNAME);
if ((fp = fopen(Tmpfile, "w")) == NULL) {
perror("mbtask");
printf("Can't create lockfile \"%s\"\n", Tmpfile);
return 1;
}
fprintf(fp, "%10u\n", getpid());
fclose(fp);
while (TRUE) {
if (link(Tmpfile, lockfile) == 0) {
unlink(Tmpfile);
return 0;
}
if ((fp = fopen(lockfile, "r")) == NULL) {
perror("mbtask");
printf("Can't open lockfile \"%s\"\n", Tmpfile);
unlink(Tmpfile);
return 1;
}
if (fscanf(fp, "%u", &oldpid) != 1) {
perror("mbtask");
printf("Can't read old pid from \"%s\"\n", Tmpfile);
fclose(fp);
unlink(Tmpfile);
return 1;
}
fclose(fp);
if (kill(oldpid,0) == -1) {
if (errno == ESRCH) {
printf("Stale lock found for pid %u\n", oldpid);
unlink(lockfile);
/* no return, try lock again */
} else {
perror("mbtask");
printf("Kill for %u failed\n",oldpid);
unlink(Tmpfile);
return 1;
}
} else {
printf("Another mbtask is already running, pid=%u\n", oldpid);
unlink(Tmpfile);
return 1;
}
}
}
void ulocktask(void)
{
if (lockfile)
(void)unlink(lockfile);
}
/* different names, same thing... be careful, as these are macros... */
#if defined(__FreeBSD__) || defined(__NetBSD__)
# define icmphdr icmp
# define iphdr ip
# define ip_saddr ip_src.s_addr
# define ip_daddr ip_dst.s_addr
#else
# define ip_saddr saddr
# define ip_daddr daddr
# define ip_hl ihl
# define ip_p protocol
#endif
#ifdef __linux__
# define icmp_type type
# define icmp_code code
# define icmp_cksum checksum
# ifdef icmp_id
# undef icmp_id
# endif
# define icmp_id un.echo.id
# ifdef icmp_seq
# undef icmp_seq
# endif
# define icmp_seq un.echo.sequence
#endif
#if defined(__FreeBSD__) || defined(__NetBSD__)
# define ICMP_DEST_UNREACH ICMP_UNREACH
# define ICMP_TIME_EXCEEDED ICMP_TIMXCEED
#endif
#define ICMP_BASEHDR_LEN 8
#define ICMP4_ECHO_LEN ICMP_BASEHDR_LEN
/*
* Takes a packet as send out and a recieved ICMP packet and looks whether the ICMP packet is
* an error reply on the sent-out one. packet is only the packet (without IP header).
* errmsg includes an IP header.
* to is the destination address of the original packet (the only thing that is actually
* compared of the IP header). The RFC sais that we get at least 8 bytes of the offending packet.
* We do not compare more, as this is all we need.
*/
static int icmp4_errcmp(char *packet, int plen, struct in_addr *to, char *errmsg, int elen, int errtype)
{
struct iphdr iph;
struct icmphdr icmph;
struct iphdr eiph;
char *data;
/* XXX: lots of memcpy to avoid unaligned accesses on alpha */
if (elen < sizeof(struct iphdr))
return 0;
memcpy(&iph, errmsg, sizeof(iph));
if (iph.ip_p != IPPROTO_ICMP || elen < iph.ip_hl * 4 + ICMP_BASEHDR_LEN + sizeof(eiph))
return 0;
memcpy(&icmph, errmsg + iph.ip_hl * 4, ICMP_BASEHDR_LEN);
memcpy(&eiph, errmsg + iph.ip_hl * 4 + ICMP_BASEHDR_LEN, sizeof(eiph));
if (elen < iph.ip_hl * 4 + ICMP_BASEHDR_LEN + eiph.ip_hl * 4 + 8)
return 0;
data = errmsg + iph.ip_hl * 4 + ICMP_BASEHDR_LEN + eiph.ip_hl * 4;
return icmph.icmp_type == errtype && memcmp(&to->s_addr, &eiph.ip_daddr, sizeof(to->s_addr)) == 0 &&
memcmp(data, packet, plen < 8 ?plen:8) == 0;
}
unsigned short get_rand16(void)
{
return random()&0xffff;
}
short p_sequence = 0;
unsigned short id;
struct icmphdr icmpd;
struct sockaddr_in to;
/*
* IPv4/ICMPv4 ping. Called from ping (see below)
*/
int ping_send(struct in_addr addr)
{
int len;
int isock;
#ifdef __linux__
struct icmp_filter f;
#else
struct protoent *pe;
int SOL_IP;
#endif
unsigned long sum;
unsigned short *ptr;
#ifndef __linux__
if (!(pe = getprotobyname("ip"))) {
tasklog('?', "icmp ping: getprotobyname() failed: %s", strerror(errno));
return -1;
}
SOL_IP = pe->p_proto;
#endif
isock = ping_isocket;
p_sequence = 1;
id = (unsigned short)get_rand16(); /* randomize a ping id */
#ifdef __linux__
/* Fancy ICMP filering -- only on Linux (as far is I know) */
/* In fact, there should be macros for treating icmp_filter, but I haven't found them in Linux 2.2.15.
* So, set it manually and unportable ;-) */
/* This filter lets ECHO_REPLY (0), DEST_UNREACH(3) and TIME_EXCEEDED(11) pass. */
/* !(0000 1000 0000 1001) = 0xff ff f7 f6 */
f.data=0xfffff7f6;
if (setsockopt(isock, SOL_RAW, ICMP_FILTER, &f, sizeof(f)) == -1) {
if (icmp_errs < ICMP_MAX_ERRS)
tasklog('?', "$icmp ping: setsockopt() failed %d", isock);
return -1;
}
#endif
icmpd.icmp_type = ICMP_ECHO;
icmpd.icmp_code = 0;
icmpd.icmp_cksum = 0;
icmpd.icmp_id = htons((short)id);
icmpd.icmp_seq = htons(p_sequence);
/* Checksumming - Algorithm taken from nmap. Thanks... */
ptr = (unsigned short *)&icmpd;
sum = 0;
for (len = 0; len < 4; len++) {
sum += *ptr++;
}
sum = (sum >> 16) + (sum & 0xffff);
sum += (sum >> 16);
icmpd.icmp_cksum = ~sum;
memset(&to, 0, sizeof(to));
to.sin_family = AF_INET;
to.sin_port = 0;
to.sin_addr = addr;
SET_SOCKA_LEN4(to);
if (sendto(isock, &icmpd, ICMP4_ECHO_LEN, 0, (struct sockaddr *)&to, sizeof(to)) == -1) {
// if (icmp_errs < ICMP_MAX_ERRS)
// tasklog('?', "$icmp ping: sendto()");
return -2;
}
return 0;
}
int ping_receive(struct in_addr addr)
{
char buf[1024];
int isock;
int len;
struct sockaddr_in ffrom;
struct icmphdr icmpp;
struct iphdr iph;
socklen_t sl;
struct pollfd pfd;
isock = ping_isocket;
pfd.fd = isock;
pfd.events = POLLIN;
/*
* 10 mSec is enough, this function is called at regular intervals.
*/
if (poll(&pfd, 1, 10) < 0) {
if (icmp_errs < ICMP_MAX_ERRS)
tasklog('?', "$poll/select failed");
return -3;
}
if (pfd.revents & POLLIN || pfd.revents & POLLERR || pfd.revents & POLLHUP || pfd.revents & POLLNVAL) {
sl = sizeof(ffrom);
if ((len = recvfrom(isock, &buf, sizeof(buf), 0,(struct sockaddr *)&ffrom, &sl)) != -1) {
if (len > sizeof(struct iphdr)) {
memcpy(&iph, buf, sizeof(iph));
if (len - iph.ip_hl * 4 >= ICMP_BASEHDR_LEN) {
memcpy(&icmpp, ((unsigned long int *)buf)+iph.ip_hl, sizeof(icmpp));
if (iph.ip_saddr == addr.s_addr &&
icmpp.icmp_type == ICMP_ECHOREPLY &&
ntohs(icmpp.icmp_id) == id &&
ntohs(icmpp.icmp_seq) <= p_sequence) {
return 0;
} else {
/* No regular echo reply. Maybe an error? */
if (icmp4_errcmp((char *)&icmpd, ICMP4_ECHO_LEN,
&to.sin_addr, buf, len, ICMP_DEST_UNREACH) ||
icmp4_errcmp((char *)&icmpd, ICMP4_ECHO_LEN,
&to.sin_addr, buf, len, ICMP_TIME_EXCEEDED)) {
return -4;
}
}
}
}
} else {
return -5; /* error */
}
}
return -6; /* no answer */
}
/*
* External Semafore Checks
*/
void test_sema(char *);
void test_sema(char *sema)
{
if (IsSema(sema)) {
RemoveSema(sema);
tasklog('s', "Semafore %s detected", sema);
sem_set(sema, TRUE);
}
}
/*
* Check semafore's, system status flags etc. This is called
* each second to test for condition changes.
*/
void check_sema(void);
void check_sema(void)
{
/*
* Check UPS status.
*/
if (IsSema((char *)"upsalarm")) {
if (!UPSalarm)
tasklog('!', "UPS: power failure");
UPSalarm = TRUE;
} else {
if (UPSalarm)
tasklog('!', "UPS: the power is back");
UPSalarm = FALSE;
}
if (IsSema((char *)"upsdown")) {
tasklog('!', "UPS: power failure, starting shutdown");
/*
* Since the upsdown semafore is permanent, the system WILL go down
* there is no point for this program to stay. Signal all tasks and stop.
*/
die(SIGTERM);
}
/*
* Check Zone Mail Hour
*/
get_zmh();
/*
* Semafore's that still can be detected, usefull for
* external programs that create them.
*/
test_sema((char *)"newnews");
test_sema((char *)"mailout");
test_sema((char *)"mailin");
test_sema((char *)"scanout");
}
void scheduler(void)
{
struct passwd *pw;
int running = 0, rc, i, rlen, found;
static int LOADhi = FALSE, oldmin = 70, olddo = 70, oldsec = 70;
char *cmd = NULL, opts[41];
static char doing[32], buf[2048];
time_t now;
struct tm *tm, *utm;
#if defined(__linux__)
FILE *fp;
#endif
struct pollfd pfd;
struct in_addr paddr;
int call_work;
static int call_entry = MAXTASKS;
double loadavg[3];
InitFidonet();
/*
* Registrate this server for mbmon in slot 0.
*/
reginfo[0].pid = getpid();
strcpy(reginfo[0].tty, "-");
strcpy(reginfo[0].uname, "mbse");
strcpy(reginfo[0].prg, "mbtask");
strcpy(reginfo[0].city, "localhost");
strcpy(reginfo[0].doing, "Start");
reginfo[0].started = time(NULL);
Processing = TRUE;
TouchSema((char *)"mbtask.last");
pw = getpwuid(getuid());
/*
* Setup UNIX Datagram socket
*/
if ((sock = socket(AF_UNIX, SOCK_DGRAM, 0)) < 0) {
tasklog('?', "$Can't create socket");
die(1);
}
memset(&servaddr, 0, sizeof(servaddr));
servaddr.sun_family = AF_UNIX;
strcpy(servaddr.sun_path, spath);
if (bind(sock, &servaddr, sizeof(servaddr)) < 0) {
close(sock);
sock = -1;
tasklog('?', "$Can't bind socket %s", spath);
die(1);
}
pingresult[1] = TRUE;
pingresult[2] = TRUE;
/*
* The flag masterinit is set if a new config.data is created, this
* is true if mbtask is started the very first time. Then we run
* mbsetup init to create the default databases.
*/
if (masterinit) {
cmd = xstrcpy(pw->pw_dir);
cmd = xstrcat(cmd, (char *)"/bin/mbsetup");
launch(cmd, (char *)"init", (char *)"mbsetup", MBINIT);
free(cmd);
sleep(2);
masterinit = FALSE;
}
initnl();
sem_set((char *)"scanout", TRUE);
/*
* Enter the mainloop (forever)
*/
do {
/*
* Poll UNIX Datagram socket until the defined timeout of one second.
* This means we listen of a MBSE BBS client program has something
* to tell.
*/
pfd.fd = sock;
pfd.events = POLLIN | POLLPRI;
pfd.revents = 0;
rc = poll(&pfd, 1, 1000);
if (rc == -1) {
/*
* Poll can be interrupted by a finished child so that's not a real error.
*/
if (errno != EINTR) {
tasklog('?', "$poll() rc=%d sock=%d, events=%04x", rc, sock, pfd.revents);
}
} else if (rc) {
if (pfd.revents & POLLIN) {
/*
* Process the clients request
*/
memset(&buf, 0, sizeof(buf));
fromlen = sizeof(from);
rlen = recvfrom(sock, buf, sizeof(buf) -1, 0, &from, &fromlen);
do_cmd(buf);
} else {
tasklog('-', "Return poll rc=%d, events=%04x", rc, pfd.revents);
}
}
/*
* Check all registered connections and semafore's
*/
reg_check();
check_sema();
/*
* Check the systems load average. FIXME: doesn't work in FreeBSD !!!
*/
Load = loadavg[0] = loadavg[1] = loadavg[2] = 0.0;
#if defined(__FreeBSD__) || defined(__NetBSD__)
if (getloadavg(loadavg, 3) == 3) {
Load = loadavg[0];
}
#elif defined(__linux__)
if ((fp = fopen((char *)"/proc/loadavg", "r"))) {
if (fscanf(fp, "%lf %lf %lf", &loadavg[0], &loadavg[1], &loadavg[2]) == 3) {
Load = loadavg[0];
} else {
tasklog('-', "error");
}
fclose(fp);
}
#endif
if (Load >= TCFG.maxload) {
if (!LOADhi) {
tasklog('!', "System load too high: %2.2f (%2.2f)", Load, TCFG.maxload);
LOADhi = TRUE;
}
} else {
if (LOADhi) {
tasklog('!', "System load normal: %2.2f (%2.2f)", Load, TCFG.maxload);
LOADhi = FALSE;
}
}
/*
* Report to the system monitor.
*/
memset(&doing, 0, sizeof(doing));
if ((running = checktasks(0)))
sprintf(doing, "Run %d tasks", running);
else if (UPSalarm)
sprintf(doing, "UPS alarm");
else if (!s_bbsopen)
sprintf(doing, "BBS is closed");
else if (Processing)
sprintf(doing, "Waiting (%d)", oldmin);
else
sprintf(doing, "Overload %2.2f", Load);
sprintf(reginfo[0].doing, "%s", doing);
reginfo[0].lastcon = time(NULL);
/*
* Touch the mbtask.last semafore to prove this daemon
* is actually running.
* Reload configuration data if some file is changed.
*/
now = time(NULL);
tm = localtime(&now);
utm = gmtime(&now);
if (tm->tm_min != olddo) {
/*
* Each minute we execute this part
*/
olddo = tm->tm_min;
TouchSema((char *)"mbtask.last");
if (file_time(tcfgfn) != tcfg_time) {
tasklog('+', "Task configuration changed, reloading");
load_taskcfg();
sem_set((char *)"scanout", TRUE);
}
if (file_time(cfgfn) != cfg_time) {
tasklog('+', "Main configuration changed, reloading");
load_maincfg();
sem_set((char *)"scanout", TRUE);
}
if (file_time(ttyfn) != tty_time) {
tasklog('+', "Ports configuration changed, reloading");
load_ports();
sem_set((char *)"scanout", TRUE);
}
/*
* If the next event time is reached, rescan the outbound
*/
if ((utm->tm_hour == nxt_hour) && (utm->tm_min == nxt_min)) {
tasklog('+', "It is now %02d:%02d UTC, starting new event", utm->tm_hour, utm->tm_min);
sem_set((char *)"scanout", TRUE);
}
}
if (s_bbsopen && !UPSalarm && !LOADhi) {
/*
* Check Pause Timer, make sure it's only checked
* once each second.
*/
if (tm->tm_sec != oldsec) {
oldsec = tm->tm_sec;
if (ptimer)
ptimer--;
}
if (!Processing) {
tasklog('+', "Resuming normal operations");
Processing = TRUE;
}
/*
* Here we run all normal operations.
*/
running = checktasks(0);
if (s_mailout && (!ptimer) && (!runtasktype(MBFIDO))) {
launch(TCFG.cmd_mailout, NULL, (char *)"mailout", MBFIDO);
running = checktasks(0);
s_mailout = FALSE;
}
if (s_mailin && (!ptimer) && (!runtasktype(MBFIDO))) {
launch(TCFG.cmd_mailin, NULL, (char *)"mailin", MBFIDO);
running = checktasks(0);
s_mailin = FALSE;
}
if (s_newnews && (!ptimer) && (!runtasktype(MBFIDO))) {
launch(TCFG.cmd_newnews, NULL, (char *)"newnews", MBFIDO);
running = checktasks(0);
s_newnews = FALSE;
}
/*
* Only run the nodelist compiler if nothing else
* is running. There's no hurry to compile the
* new lists. If more then one compiler is defined,
* start them in parallel.
*/
if (s_index && (!ptimer) && (!running)) {
if (strlen(TCFG.cmd_mbindex1))
launch(TCFG.cmd_mbindex1, NULL, (char *)"compiler 1", MBINDEX);
if (strlen(TCFG.cmd_mbindex2))
launch(TCFG.cmd_mbindex2, NULL, (char *)"compiler 2", MBINDEX);
if (strlen(TCFG.cmd_mbindex3))
launch(TCFG.cmd_mbindex3, NULL, (char *)"compiler 3", MBINDEX);
running = checktasks(0);
s_index = FALSE;
}
/*
* Linking messages is also only done when there is
* nothing else to do.
*/
if (s_msglink && (!ptimer) && (!running)) {
launch(TCFG.cmd_msglink, NULL, (char *)"msglink", MBFIDO);
running = checktasks(0);
s_msglink = FALSE;
}
/*
* Creating filerequest indexes, also only if nothing to do.
*/
if (s_reqindex && (!ptimer) && (!running)) {
launch(TCFG.cmd_reqindex, NULL, (char *)"reqindex", MBFILE);
running = checktasks(0);
s_reqindex = FALSE;
}
if ((tm->tm_sec / SLOWRUN) != oldmin) {
/*
* These tasks run once per 20 seconds.
*/
oldmin = tm->tm_sec / SLOWRUN;
/*
* If the previous pingstat is still P_SENT, then we now consider it a timeout.
*/
if (pingstate == P_SENT) {
pingresult[pingnr] = FALSE;
icmp_errs++;
if (icmp_errs < ICMP_MAX_ERRS)
tasklog('p', "ping %s seq=%d timeout", pingaddress, p_sequence);
}
/*
* Check internet connection with ICMP ping
*/
rc = 0;
if (pingnr == 1) {
pingnr = 2;
if (strlen(TCFG.isp_ping2)) {
sprintf(pingaddress, "%s", TCFG.isp_ping2);
} else {
pingstate = P_NONE;
}
} else {
pingnr = 1;
if (strlen(TCFG.isp_ping1)) {
sprintf(pingaddress, "%s", TCFG.isp_ping1);
} else {
pingstate = P_NONE;
}
}
if (inet_aton(pingaddress, &paddr)) {
rc = ping_send(paddr);
if (rc) {
if (icmp_errs++ < ICMP_MAX_ERRS)
tasklog('?', "ping send %s rc=%d", pingaddress, rc);
pingstate = P_FAIL;
pingresult[pingnr] = FALSE;
} else {
pingstate = P_SENT;
}
} else {
if (icmp_errs++ < ICMP_MAX_ERRS)
tasklog('?', "Ping address %d is invalid \"%s\"", pingnr, pingaddress);
pingstate = P_NONE;
}
if (pingresult[1] == FALSE && pingresult[2] == FALSE) {
icmp_errs++;
if (internet) {
tasklog('!', "Internet connection is down");
internet = FALSE;
sem_set((char *)"scanout", TRUE);
}
} else {
if (!internet) {
tasklog('!', "Internet connection is up");
internet = TRUE;
sem_set((char *)"scanout", TRUE);
}
icmp_errs = 0;
}
/*
* Update outbound status if needed.
*/
if (s_scanout) {
outstat();
}
call_work = check_calllist();
/*
* Launch the systems to call, start one system each time.
* Set the safety counter to MAXTASKS + 1, this forces that
* the counter really will advance to the next node in case
* of failing sessions.
*/
i = MAXTASKS + 1;
found = FALSE;
if (call_work) {
while (TRUE) {
/*
* Rotate the call entries
*/
if (call_entry == MAXTASKS)
call_entry = 0;
else
call_entry++;
// tasklog('c', "Call entry rotaded to %d", call_entry);
/*
* If a valid entry, and not yet calling, and the retry time is reached,
* then launch a callprocess for this node.
*/
// if (calllist[call_entry].addr.zone && !calllist[call_entry].calling) {
// tasklog('o', "trytime %lu, now %lu", calllist[call_entry].cst.trytime, now);
// }
if (calllist[call_entry].addr.zone && !calllist[call_entry].calling &&
(calllist[call_entry].cst.trytime < now)) {
if ((calllist[call_entry].callmode == CM_INET) && (runtasktype(CM_INET) < TCFG.max_tcp)) {
found = TRUE;
break;
}
if ((calllist[call_entry].callmode == CM_ISDN) && (runtasktype(CM_ISDN) < TCFG.max_isdn)) {
found = TRUE;
break;
}
if ((calllist[call_entry].callmode == CM_POTS) && (runtasktype(CM_POTS) < TCFG.max_pots)) {
found = TRUE;
break;
}
}
/*
* Safety counter, if all systems are already calling, we should
* never break out of this loop anymore.
*/
i--;
if (!i)
break;
}
if (found) {
// tasklog('c', "Should launch slot %d node %s", call_entry, ascfnode(calllist[call_entry].addr, 0x1f));
cmd = xstrcpy(pw->pw_dir);
cmd = xstrcat(cmd, (char *)"/bin/mbcico");
sprintf(opts, "f%u.n%u.z%u", calllist[call_entry].addr.node, calllist[call_entry].addr.net,
calllist[call_entry].addr.zone);
calllist[call_entry].taskpid = launch(cmd, opts, (char *)"mbcico", calllist[call_entry].callmode);
if (calllist[call_entry].taskpid)
calllist[call_entry].calling = TRUE;
running = checktasks(0);
check_calllist();
free(cmd);
cmd = NULL;
}
}
}
/*
* PING state changes
*/
switch (pingstate) {
case P_NONE: pingresult[pingnr] = TRUE;
break;
case P_SENT: rc = ping_receive(paddr);
if (!rc) {
pingstate = P_OK;
pingresult[pingnr] = TRUE;
} else {
if (rc != -6)
tasklog('p', "ping recv %s id=%d rc=%d", pingaddress, id, rc);
}
break;
}
} else {
if (Processing) {
tasklog('+', "Suspending operations");
Processing = FALSE;
}
}
} while (TRUE);
}
int main(int argc, char **argv)
{
struct passwd *pw;
int i;
pid_t frk;
FILE *fp;
/*
* Print copyright notices and setup logging.
*/
printf("MBTASK: MBSE BBS v%s Task Manager Daemon\n", VERSION);
printf(" %s\n\n", COPYRIGHT);
/*
* Catch all the signals we can, and ignore the rest. Note that SIGKILL can't be ignored
* but that's live. This daemon should only be stopped by SIGTERM.
*/
for(i = 0; i < NSIG; i++) {
if ((i == SIGHUP) || (i == SIGINT) || (i == SIGBUS) || (i == SIGILL) || (i == SIGSEGV) || (i == SIGTERM))
signal(i, (void (*))die);
else
signal(i, SIG_IGN);
}
/*
* Create the ping socket while we are still root.
*/
if ((ping_isocket = socket(PF_INET, SOCK_RAW, IPPROTO_ICMP)) == -1) {
perror("");
printf("socket init failed, is mbtask not installed setuid root?\n");
exit(1);
}
/*
* mbtask is setuid root, drop privileges to user mbse.
* This will stay forever like this, no need to become
* root again. The child can't even become root anymore.
*/
pw = getpwnam((char *)"mbse");
if (setuid(pw->pw_uid)) {
perror("");
printf("can't setuid to mbse\n");
close(ping_isocket);
exit(1);
}
if (setgid(pw->pw_gid)) {
perror("");
printf("can't setgid to bbs\n");
close(ping_isocket);
exit(1);
}
umask(007);
if (locktask(pw->pw_dir)) {
close(ping_isocket);
exit(1);
}
sprintf(cfgfn, "%s/etc/config.data", getenv("MBSE_ROOT"));
load_maincfg();
tasklog(' ', " ");
tasklog(' ', "MBTASK v%s", VERSION);
sprintf(tcfgfn, "%s/etc/task.data", getenv("MBSE_ROOT"));
load_taskcfg();
status_init();
memset(&task, 0, sizeof(task));
memset(&reginfo, 0, sizeof(reginfo));
memset(&calllist, 0, sizeof(calllist));
sprintf(spath, "%s/tmp/mbtask", getenv("MBSE_ROOT"));
sprintf(ttyfn, "%s/etc/ttyinfo.data", getenv("MBSE_ROOT"));
load_ports();
/*
* Now that init is complete and this program is locked, it is
* safe to remove a stale socket if it is there after a crash.
*/
if (!file_exist(spath, R_OK))
unlink(spath);
/*
* Server initialization is complete. Now we can fork the
* daemon and return to the user. We need to do a setpgrp
* so that the daemon will no longer be assosiated with the
* users control terminal. This is done before the fork, so
* that the child will not be a process group leader. Otherwise,
* if the child were to open a terminal, it would become
* associated with that terminal as its control terminal.
*/
if ((pgrp = setpgid(0, 0)) == -1) {
tasklog('?', "$setpgid failed");
die(0);
}
frk = fork();
switch (frk) {
case -1:
tasklog('?', "$Unable to fork daemon");
die(0);
case 0:
/*
* Starting the deamon child process here.
*/
fclose(stdin);
fclose(stdout);
fclose(stderr);
scheduler();
/* Not reached */
default:
/*
* Here we detach this process and let the child
* run the deamon process. Put the child's pid
* in the lockfile before leaving.
*/
if ((fp = fopen(lockfile, "w"))) {
fprintf(fp, "%10u\n", frk);
fclose(fp);
}
tasklog('+', "Starting daemon with pid %d", frk);
exit(0);
}
/*
* Not reached
*/
return 0;
}