/* * zaploop.c - shut down message looping via brute-force * * 91Jan03 AA Now uses date AND msgid as criteria; also stores gen & nodename * 90Nov25 AA Hacked a bit for gcc * 88Jun17 orc created. */ #include "ctdl.h" #include "zaploop.h" #include "room.h" #include "msg.h" #include "config.h" #include "citlib.h" #include "citadel.h" /* Declarations specific to citadel.tos */ static struct zaploop zapnode; static int zapdbx; static short zapcur = ERROR; static struct mupdate { time_t mulast; /* newest message found here... (date) */ long mulastid; /* highest message id found here */ short muloc; /* bucket for this message */ } *nzmsg; static int nzsize; char checkloops = 0; #if 0 static time_t msgtime(void) { struct tm msgt; int year = 0, mon, mday = 0, hour, min; char apm; int count; char *p; zero_struct(msgt); p = msgBuf.mbdate; if (*p) { while (isdigit(*p)) { year = (year * 10) + (*p - '0'); p++; } mon = 1; while (strnicmp(p, monthTab[mon], 3) && ++mon <= 12) ; if (mon > 12) return ERROR; while (!isdigit(*p)) p++; while (isdigit(*p)) { mday = (mday * 10) + (*p - '0'); p++; } } count = sscanf(msgBuf.mbtime, "%d:%d %cm", &hour, &min, &apm); if (count < 2) return ERROR; if (hour == 12) hour = 0; if (count == 3) { if (apm == 'p') hour += 12; else if (apm != 'a') return ERROR; } msgt.tm_year = year; msgt.tm_mon = mon - 1; msgt.tm_mday = mday; msgt.tm_hour = hour; msgt.tm_min = min; return mktime(&msgt); } #endif /* * init_zap() - open the zaploop database */ void init_zap(void) { PATHBUF zapfile; ctdlfile(zapfile, cfg.netdir, "ctdlloop.zap"); if ((zapdbx = dopen(zapfile,O_RDWR)) < 0) { splitF(netLog, "cannot open %s\n", zapfile); checkloops=0; } nzmsg = (struct mupdate *)malloc(sizeof *nzmsg); nzsize = 0; if (!nzmsg) { splitF(netLog, "(zl) Out of memory\n"); dclose(zapdbx); checkloops=0; } } static void getx(short i) { zapcur = i; dseek(zapdbx, zapcur * sizeof zapnode, SEEK_SET); dread(zapdbx, &zapnode, sizeof(zapnode)); } static void putx(void) { if (zapcur != ERROR) { dseek(zapdbx, zapcur * sizeof zapnode, SEEK_SET); dwrite(zapdbx, &zapnode, sizeof(zapnode)); } } /* * close_zap() - close the zaploop database */ void close_zap(void) { register i; if (nzmsg) { for (i = 0; i < nzsize; i++) if (nzmsg[i].mulast > 0L || nzmsg[i].mulastid > 0L) { getx(nzmsg[i].muloc); zapnode.lxlast = nzmsg[i].mulast; zapnode.lxlastid = nzmsg[i].mulastid; putx(); } free(nzmsg); nzmsg = NULL; nzsize = 0; } if (zapdbx >= 0) dclose(zapdbx); zapdbx = -1; } /* * makebucket() -- make up a new zap entry for this address/room */ static int makebucket(char *address, char *name, short chain) { long pos = dseek(zapdbx, 0L, SEEK_END); /* seek to eof */ if (pos >= 0) pos /= sizeof zapnode; zapcur = pos; strcpy(zapnode.lxaddr, address); strcpy(zapnode.lxname, name); zapnode.lxlast = 0L; zapnode.lxlastid = 0L; zapnode.lxchain = chain; zapnode.lxroom = thisRoom; zapnode.lxgen = roomTab[thisRoom].rtgen; putx(); return zapcur; } /* * loadx() -- load up the appropriate zap record for a node */ static int loadx(char *addr, char *name) { register int i; register short ahash = hash(addr); #define THIS(x) (stricmp(x,zapnode.lxaddr) == 0 && zapnode.lxroom == thisRoom) if (addr[0] == 0 || strlen(addr) > 12) return 0; if (zapcur != ERROR && THIS(addr)) return 1; for (i = 0; i < cfg.zap_count; i++) if (ahash == zap[i].zhash) { getx(zap[i].zbucket); if (stricmp(addr, zapnode.lxaddr) != 0) continue; while (zapnode.lxroom != thisRoom && zapnode.lxchain >= 0) getx(zapnode.lxchain); if (zapnode.lxroom != thisRoom) zap[i].zbucket = makebucket(addr, name, zap[i].zbucket); else { /* right room, so check gen */ if (zapnode.lxgen != roomTab[thisRoom].rtgen) { zapnode.lxgen = roomTab[thisRoom].rtgen; /* update gen */ zapnode.lxlast = zapnode.lxlastid = 0L; /* reset */ putx(); } } return 1; } /* * new node id -- add a new record */ if (zap = (struct zaphash *) realloc(zap, (1+cfg.zap_count) * sizeof(struct zaphash))) { zap[cfg.zap_count].zhash = ahash; zap[cfg.zap_count].zbucket = makebucket(addr, name, -1); cfg.zap_count++; splitF(netLog, "Created new zap entry for %s (%s)\n", msgBuf.mboname, roomTab[thisRoom].rtname); return 1; } splitF(netLog, "(loadx) Out of memory.\n"); checkloops = 0; return 0; } /* * notseen() - looping message? * * Algorithm: We reject a message if: * * a) Its time & date is EARLIER than the latest message received AND * its message id is LESS THAN that of the latest message received, or * b) If the message has no id, we reject it iff its time & date is EARLIER. */ int notseen(void) { time_t last = msgtime(msgBuf.mbdate, msgBuf.mbtime); long lastid = msgBuf.mbsrcid; LABEL chk; int i; struct mupdate *tmp; if (checkloops && normID(msgBuf.mborig,chk) && loadx(chk, msgBuf.mboname)){ if ((last != ERROR && last > zapnode.lxlast) || lastid > zapnode.lxlastid) { if (netDebug && (last <= zapnode.lxlast || (lastid && lastid <= zapnode.lxlastid))) { splitF(netLog, "Message from %s (%s):\n <%s in %s, %s@%s>\n", msgBuf.mboname, msgBuf.mborig, msgBuf.mbauth, msgBuf.mbroom, msgBuf.mbdate, msgBuf.mbtime); if (last <= zapnode.lxlast) splitF(netLog, " fails date check: msg date %ld, zap date %ld\n", last, zapnode.lxlast); else if (zapnode.lxlastid && lastid <= zapnode.lxlastid) splitF(netLog, " fails id check: msg id %ld, zap id %ld\n", lastid, zapnode.lxlastid); } for (i = 0; i < nzsize; i++) if (nzmsg[i].muloc == zapcur) { #if 0 if (last > nzmsg[i].mulast) nzmsg[i].mulast = last; if (lastid > nzmsg[i].mulastid) nzmsg[i].mulastid = lastid; #else nzmsg[i].mulast = last; if (lastid) nzmsg[i].mulastid = lastid; #endif return 1; } tmp = (struct mupdate *) realloc(nzmsg, (1 + nzsize) * sizeof(struct mupdate)); if (tmp) { nzmsg = tmp; nzmsg[nzsize].mulast = last; nzmsg[nzsize].mulastid = lastid; nzmsg[nzsize].muloc = zapcur; ++nzsize; return 1; } splitF(netLog, "(loopzapper) out of memory\n"); checkloops = 0; } else { /* zap the message */ if (netDebug) splitF(netLog, "zap: %s (%s), msglast = %lu zaplast = %lu msglastid = %ld zaplastid = %ld\n", zapnode.lxaddr, roomTab[zapnode.lxroom].rtname, last, zapnode.lxlast, lastid, zapnode.lxlastid); return 0; } } return 1; }