#include #include #include #include #include #include #include #include #include "config.h" #include "pttstruct.h" #include "util.h" extern struct utmpfile_t *utmpshm; int utmpfix(int argc, char **argv) { int i; char buf[1024], *clean; struct stat st; if( utmpshm->busystate ){ puts("utmpshm is busy"); return 0; } utmpshm->busystate = 1; for( i = 0 ; i < USHM_SIZE ; ++i ) if( utmpshm->uinfo[i].pid ){ clean = NULL; if( !isalpha(utmpshm->uinfo[i].userid[0]) ) clean = "userid error"; else{ sprintf(buf, "/proc/%d", utmpshm->uinfo[i].pid); if( stat(buf, &st) < 0 ) clean = "process not exist"; else{ sprintf(buf, "home/%c/%s", utmpshm->uinfo[i].userid[0], utmpshm->uinfo[i].userid); if( stat(buf, &st) < 0 ) clean = "user not exist"; } } if( clean ){ printf("clean %06d(%s), userid: %s\n", i, clean, utmpshm->uinfo[i].userid); memset(&utmpshm->uinfo[i], 0, sizeof(userinfo_t)); } else if ( utmpshm->uinfo[i].mind > 40 ){ printf("mind fix: %06d, userid: %s, mind: %d\n", i, utmpshm->uinfo[i].userid, utmpshm->uinfo[i].mind); utmpshm->uinfo[i].mind %= 40; } } utmpshm->busystate = 0; return 0; } char *CTIME(char *buf, time_t t) { strcpy(buf, ctime(&t)); buf[strlen(buf) - 1] = 0; return buf; } int utmpstate(int argc, char **argv) { time_t now; char upbuf[64], nowbuf[64]; now = time(NULL); CTIME(upbuf, utmpshm->uptime); CTIME(nowbuf, time(NULL)); printf("now: %s\n", nowbuf); printf("currsorted: %d\n", utmpshm->currsorted); printf("uptime: %s\n", upbuf); printf("number: %d\n", utmpshm->number); printf("busystate: %d\n", utmpshm->busystate); return 0; } int utmpreset(int argc, char **argv) { utmpshm->busystate=0; utmpstate(0, NULL); return 0; } /* ulistsort */ static int cmputmpuserid(const void *i, const void *j){ return strcasecmp((*((userinfo_t**)i))->userid, (*((userinfo_t**)j))->userid); } static int cmputmpmode(const void *i, const void *j){ return (*((userinfo_t**)i))->mode- (*((userinfo_t**)j))->mode; } static int cmputmpidle(const void *i, const void *j){ return (*((userinfo_t**)i))->lastact- (*((userinfo_t**)j))->lastact; } static int cmputmpfrom(const void *i, const void *j){ return strcasecmp((*((userinfo_t**)i))->from, (*((userinfo_t**)j))->from); } static int cmputmpfive(const void *i, const void *j){ int type; if((type=(*((userinfo_t**)j))->five_win - (*((userinfo_t**)i))->five_win)) return type; if((type=(*((userinfo_t**)i))->five_lose-(*((userinfo_t**)j))->five_lose)) return type; return (*((userinfo_t**)i))->five_tie-(*((userinfo_t**)j))->five_tie; } static int cmputmpsex(const void *i, const void *j){ static int ladyfirst[]={1,0,1,0,1,0,3,3}; return ladyfirst[(*((userinfo_t**)i))->sex]- ladyfirst[(*((userinfo_t**)j))->sex]; } static int cmputmppid(const void *i, const void *j){ return (*((userinfo_t**)i))->pid-(*((userinfo_t**)j))->pid; } static int cmputmpuid(const void *i, const void *j){ return (*((userinfo_t**)i))->uid-(*((userinfo_t**)j))->uid; } int utmpsort(int argc, char **argv) { time_t now=time(NULL); int count, i, ns; userinfo_t *uentp; if(now-utmpshm->uptime<60 && (now==utmpshm->uptime || utmpshm->busystate)){ puts("lazy sort"); //return; /* lazy sort */ } utmpshm->busystate=1; utmpshm->uptime = now; ns=(utmpshm->currsorted?0:1); for(uentp = &utmpshm->uinfo[0], count=0, i=0; i< USHM_SIZE; i++,uentp = &utmpshm->uinfo[i]) if(uentp->pid){ utmpshm->sorted[ns][0][count++]= uentp; } utmpshm->number = count; qsort(utmpshm->sorted[ns][0],count,sizeof(userinfo_t*),cmputmpuserid); memcpy(utmpshm->sorted[ns][1],utmpshm->sorted[ns][0], sizeof(userinfo_t *)*count); memcpy(utmpshm->sorted[ns][2],utmpshm->sorted[ns][0], sizeof(userinfo_t *)*count); memcpy(utmpshm->sorted[ns][3],utmpshm->sorted[ns][0], sizeof(userinfo_t *)*count); memcpy(utmpshm->sorted[ns][4],utmpshm->sorted[ns][0], sizeof(userinfo_t *)*count); memcpy(utmpshm->sorted[ns][5],utmpshm->sorted[ns][0], sizeof(userinfo_t *)*count); memcpy(utmpshm->sorted[ns][6],utmpshm->sorted[ns][0], sizeof(userinfo_t *)*count); memcpy(utmpshm->sorted[ns][7],utmpshm->sorted[ns][0], sizeof(userinfo_t *)*count); qsort(utmpshm->sorted[ns][1], count, sizeof(userinfo_t *), cmputmpmode ); qsort(utmpshm->sorted[ns][2], count, sizeof(userinfo_t *), cmputmpidle ); qsort(utmpshm->sorted[ns][3], count, sizeof(userinfo_t *), cmputmpfrom ); qsort(utmpshm->sorted[ns][4], count, sizeof(userinfo_t *), cmputmpfive ); //qsort(utmpshm->sorted[ns][5], count, sizeof(userinfo_t *), cmputmpsex ); qsort(utmpshm->sorted[ns][6], count, sizeof(userinfo_t *), cmputmpuid ); qsort(utmpshm->sorted[ns][7], count, sizeof(userinfo_t *), cmputmppid ); utmpshm->currsorted=ns; utmpshm->busystate=0; puts("new utmpstate"); utmpstate(0, NULL); return 0; } /* end of ulistsort */ #define TIMES 10 int utmpwatch(int argc, char **argv) { int i; while( 1 ){ for( i = 0 ; i < TIMES ; ++i ){ usleep(300); if( !utmpshm->busystate ) break; puts("busying..."); } if( i == TIMES ){ puts("reset!"); utmpshm->busystate = 0; } } return 0; } int utmpnum(int argc, char **argv) { printf("%d.0\n", utmpshm->number); return 0; } struct { int (*func)(int, char **); char *cmd, *descript; } cmd[] = { {utmpfix, "utmpfix", "clear dead userlist entry"}, {utmpstate, "utmpstate", "list utmpstate"}, {utmpreset, "utmpreset", "utmpshm->busystate=0"}, {utmpsort, "utmpsort", "sort ulist"}, {utmpwatch, "utmpwatch", "to see if busystate is always 1 then fix it"}, {utmpnum, "utmpnum", "print utmpshm->number for snmpd"}, {NULL, NULL, NULL} }; int main(int argc, char **argv) { int i = 0; if( argc >= 2 ){ chdir(BBSHOME); resolve_utmp(); resolve_boards(); //resolve_garbage(); resolve_fcache(); for( i = 0 ; cmd[i].func != NULL ; ++i ) if( strcmp(cmd[i].cmd, argv[1]) == 0 ){ return cmd[i].func(argc - 2, &argv[2]); } } if( argc == 1 || cmd[i].func == NULL ){ /* usage */ printf("usage: bbsctl [command] [options]\n"); printf("commands:\n"); for( i = 0 ; cmd[i].func != NULL ; ++i ) printf("\t%-15s%s\n", cmd[i].cmd, cmd[i].descript); } return 0; }