#if !defined(lint) && !defined(SABER) static char sccsid[] = "@(#)db_glue.c 4.4 (Berkeley) 6/1/90"; static char rcsid[] = "$Id: db_glue.c,v 1.4 1995/10/23 11:11:42 peter Exp $"; #endif /* not lint */ /* * ++Copyright++ 1986, 1988 * - * Copyright (c) 1986, 1988 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * - * Portions Copyright (c) 1993 by Digital Equipment Corporation. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies, and that * the name of Digital Equipment Corporation not be used in advertising or * publicity pertaining to distribution of the document or software without * specific, written prior permission. * * THE SOFTWARE IS PROVIDED "AS IS" AND DIGITAL EQUIPMENT CORP. DISCLAIMS ALL * WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL DIGITAL EQUIPMENT * CORPORATION BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS * ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS * SOFTWARE. * - * --Copyright-- */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "named.h" struct valuelist { struct valuelist *next, *prev; char *name; char *proto; int port; }; static struct valuelist *servicelist, *protolist; #if defined(ultrix) /* ultrix 4.0 has some icky packaging details. work around them here. * since this module is linked into named and named-xfer, we end up * forcing both to drag in our own res_send rather than ultrix's hesiod * version of that. */ static const int (*unused_junk)__P((const u_char *, int, u_char *, int)) = res_send; ; #endif /*XXX: sin_ntoa() should probably be in libc*/ const char * sin_ntoa(sin) const struct sockaddr_in *sin; { static char ret[sizeof "[111.222.333.444].55555"]; if (!sin) strcpy(ret, "[sin_ntoa(NULL)]"); else sprintf(ret, "[%s].%u", inet_ntoa(sin->sin_addr), ntohs(sin->sin_port)); return (ret); } /* * XXX: some day we'll make this a varargs function */ void panic(err, msg) int err; const char *msg; { if (err == -1) syslog(LOG_CRIT, "%s - ABORT", msg); else syslog(LOG_CRIT, "%s: %s - ABORT", msg, strerror(err)); signal(SIGIOT, SIG_DFL); /* no POSIX needed here. */ abort(); } void buildservicelist() { struct servent *sp; struct valuelist *slp; #ifdef MAYBE_HESIOD setservent(0); #else setservent(1); #endif while (sp = getservent()) { slp = (struct valuelist *)malloc(sizeof(struct valuelist)); if (!slp) panic(errno, "malloc(servent)"); slp->name = savestr(sp->s_name); slp->proto = savestr(sp->s_proto); slp->port = ntohs((u_int16_t)sp->s_port); /* host byt order */ slp->next = servicelist; slp->prev = NULL; if (servicelist) servicelist->prev = slp; servicelist = slp; } endservent(); } void buildprotolist() { struct protoent *pp; struct valuelist *slp; #ifdef MAYBE_HESIOD setprotoent(0); #else setprotoent(1); #endif while (pp = getprotoent()) { slp = (struct valuelist *)malloc(sizeof(struct valuelist)); if (!slp) panic(errno, "malloc(protoent)"); slp->name = savestr(pp->p_name); slp->port = pp->p_proto; /* host byte order */ slp->next = protolist; slp->prev = NULL; if (protolist) protolist->prev = slp; protolist = slp; } endprotoent(); } static int findservice(s, list) register char *s; register struct valuelist **list; { register struct valuelist *lp = *list; int n; for (; lp != NULL; lp = lp->next) if (strcasecmp(lp->name, s) == 0) { if (lp != *list) { lp->prev->next = lp->next; if (lp->next) lp->next->prev = lp->prev; (*list)->prev = lp; lp->next = *list; *list = lp; } return (lp->port); /* host byte order */ } if (sscanf(s, "%d", &n) != 1 || n <= 0) n = -1; return (n); } /* * Convert service name or (ascii) number to int. */ int servicenumber(p) char *p; { return (findservice(p, &servicelist)); } /* * Convert protocol name or (ascii) number to int. */ int protocolnumber(p) char *p; { return (findservice(p, &protolist)); } #if defined(__STDC__) || defined(__GNUC__) static struct servent * cgetservbyport(u_int16_t port, /* net byte order */ char *proto) #else static struct servent * cgetservbyport(port, proto) u_int16_t port; /* net byte order */ char *proto; #endif { register struct valuelist **list = &servicelist; register struct valuelist *lp = *list; static struct servent serv; port = ntohs(port); for (; lp != NULL; lp = lp->next) { if (port != (u_int16_t)lp->port) /* host byte order */ continue; if (strcasecmp(lp->proto, proto) == 0) { if (lp != *list) { lp->prev->next = lp->next; if (lp->next) lp->next->prev = lp->prev; (*list)->prev = lp; lp->next = *list; *list = lp; } serv.s_name = lp->name; serv.s_port = htons((u_int16_t)lp->port); serv.s_proto = lp->proto; return (&serv); } } return (0); } static struct protoent * cgetprotobynumber(proto) register int proto; /* host byte order */ { register struct valuelist **list = &protolist; register struct valuelist *lp = *list; static struct protoent prot; for (; lp != NULL; lp = lp->next) if (lp->port == proto) { /* host byte order */ if (lp != *list) { lp->prev->next = lp->next; if (lp->next) lp->next->prev = lp->prev; (*list)->prev = lp; lp->next = *list; *list = lp; } prot.p_name = lp->name; prot.p_proto = lp->port; /* host byte order */ return (&prot); } return (0); } char * protocolname(num) int num; { static char number[8]; struct protoent *pp; pp = cgetprotobynumber(num); if(pp == 0) { (void) sprintf(number, "%d", num); return (number); } return (pp->p_name); } #if defined(__STDC__) || defined(__GNUC__) char * servicename(u_int16_t port, char *proto) /* host byte order */ #else char * servicename(port, proto) u_int16_t port; /* host byte order */ char *proto; #endif { static char number[8]; struct servent *ss; ss = cgetservbyport(htons(port), proto); if (ss == 0) { (void) sprintf(number, "%d", port); return (number); } return (ss->s_name); } u_int db_getclev(origin) const char *origin; { u_int lev = 0; dprintf(12, (ddt, "db_getclev of \"%s\"", origin)); if (origin && *origin) lev++; while (origin && (origin = strchr(origin, '.'))) { origin++; lev++; } dprintf(12, (ddt, " = %d\n", lev)); return (lev); } void gettime(ttp) struct timeval *ttp; { if (gettimeofday(ttp, NULL) < 0) syslog(LOG_ERR, "gettimeofday: %m"); return; } #if !defined(BSD) int getdtablesize() { #if defined(USE_POSIX) int j = (int) sysconf(_SC_OPEN_MAX); if (j >= 0) return (j); #endif /* POSIX */ return (FD_SETSIZE); } #endif /* BSD */ int my_close(fd) int fd; { int s; do { errno = 0; s = close(fd); } while (s < 0 && errno == EINTR); if (s < 0 && errno != EBADF) syslog(LOG_INFO, "close(%d) failed: %m", fd); else dprintf(3, (ddt, "close(%d) succeeded\n", fd)); return (s); } #ifdef GEN_AXFR /* * Map class names to number */ struct map { char *token; int val; }; static struct map map_class[] = { { "in", C_IN }, { "chaos", C_CHAOS }, { "hs", C_HS }, { NULL, 0 } }; int get_class(class) char *class; { struct map *mp; if (isdigit(*class)) return (atoi(class)); for (mp = map_class; mp->token != NULL; mp++) if (strcasecmp(class, mp->token) == 0) return (mp->val); return (C_IN); } #endif int my_fclose(fp) FILE *fp; { int fd = fileno(fp), s = fclose(fp); if (s < 0) syslog(LOG_INFO, "fclose(%d) failed: %m", fd); else dprintf(3, (ddt, "fclose(%d) succeeded\n", fd)); return (s); } /* * Make a copy of a string and return a pointer to it. */ char * savestr(str) const char *str; { char *cp; cp = (char *)malloc(strlen(str) + 1); if (!cp) panic(errno, "malloc(savestr)"); strcpy(cp, str); return (cp); } int writemsg(rfd, msg, msglen) int rfd; u_char *msg; int msglen; { struct iovec iov[2]; u_char len[INT16SZ]; __putshort(msglen, len); iov[0].iov_base = (char *)len; iov[0].iov_len = INT16SZ; iov[1].iov_base = (char *)msg; iov[1].iov_len = msglen; if (writev(rfd, iov, 2) != INT16SZ + msglen) { dprintf(1, (ddt, "write failed %d\n", errno)); return (-1); } return (0); } /* rm_datum(dp, np, pdp) * remove datum 'dp' from name 'np'. pdp is previous data pointer. * return value: * "next" field from removed datum, suitable for relinking */ struct databuf * rm_datum(dp, np, pdp) register struct databuf *dp; register struct namebuf *np; register struct databuf *pdp; { register struct databuf *ndp = dp->d_next; dprintf(3, (ddt, "rm_datum(%lx, %lx, %lx) -> %lx\n", (u_long)dp, (u_long)np->n_data, (u_long)pdp, (u_long)ndp)); #ifdef INVQ rminv(dp); #endif if (pdp == NULL) np->n_data = ndp; else pdp->d_next = ndp; #ifdef DATUMREFCNT if (--(dp->d_rcnt)) { switch(dp->d_type) { case T_NS: dprintf(1, (ddt, "rm_datum: %s rcnt = %d\n", dp->d_data, dp->d_rcnt)); break; case T_A: dprintf(1, (ddt, "rm_datum: %08.8X rcnt = %d\n", *(int32_t*)(dp->d_data), dp->d_rcnt)); break; default: dprintf(1, (ddt, "rm_datum: rcnt = %d\n", dp->d_rcnt)); } } else #endif free((char *)dp); return (ndp); } /* rm_name(np, he, pnp) * remove name 'np' from parent 'pp'. pnp is previous name pointer. * return value: * "next" field from removed name, suitable for relinking */ struct namebuf * rm_name(np, pp, pnp) struct namebuf *np, **pp, *pnp; { struct namebuf *nnp = np->n_next; char *msg; /* verify */ if ( (np->n_data && (msg = "data")) || (np->n_hash && (msg = "hash")) ) { syslog(LOG_ERR, "rm_name(%#lx(%s)): non-nil %s pointer\n", (u_long)np, np->n_dname?np->n_dname:"Nil", msg); panic(-1, "rm_name"); } /* unlink */ if (pnp) { pnp->n_next = nnp; } else { *pp = nnp; } /* deallocate */ free(np->n_dname); free((char*) np); /* done */ return (nnp); } /* * Get the domain name of 'np' and put in 'buf'. Bounds checking is done. */ void getname(np, buf, buflen) struct namebuf *np; char *buf; int buflen; { register char *cp; register int i; cp = buf; while (np != NULL) { if ((i = strlen(np->n_dname))+1 >= buflen) { *cp = '\0'; syslog(LOG_INFO, "domain name too long: %s...\n", buf); strcpy(buf, "Name_Too_Long"); return; } if (cp != buf) *cp++ = '.'; (void) strcpy(cp, np->n_dname); cp += i; buflen -= (i+1); np = np->n_parent; } *cp = '\0'; } #ifdef INVQ /* * Add data 'dp' to inverse query tables for name 'np'. */ void addinv(np, dp) struct namebuf *np; struct databuf *dp; { register struct invbuf *ip; register int hval, i; switch (dp->d_type) { case T_A: case T_UID: case T_GID: break; default: return; } hval = dhash(dp->d_data, dp->d_size); for (ip = invtab[hval]; ip != NULL; ip = ip->i_next) for (i = 0; i < INVBLKSZ; i++) if (ip->i_dname[i] == NULL) { ip->i_dname[i] = np; return; } ip = saveinv(); ip->i_next = invtab[hval]; invtab[hval] = ip; ip->i_dname[0] = np; } /* * Remove data 'odp' from inverse query table. */ void rminv(odp) struct databuf *odp; { register struct invbuf *ip; register struct databuf *dp; struct namebuf *np; register int i; for (ip = invtab[dhash(odp->d_data, odp->d_size)]; ip != NULL; ip = ip->i_next) { for (i = 0; i < INVBLKSZ; i++) { if ((np = ip->i_dname[i]) == NULL) break; for (dp = np->n_data; dp != NULL; dp = dp->d_next) { if (dp != odp) continue; while (i < INVBLKSZ-1) { ip->i_dname[i] = ip->i_dname[i+1]; i++; } ip->i_dname[i] = NULL; return; } } } } /* * Allocate an inverse query buffer. */ struct invbuf * saveinv() { register struct invbuf *ip; ip = (struct invbuf *) malloc(sizeof(struct invbuf)); if (!ip) panic(errno, "malloc(saveinv)"); ip->i_next = NULL; bzero((char *)ip->i_dname, sizeof(ip->i_dname)); return (ip); } /* * Compute hash value from data. */ int dhash(dp, dlen) register const u_char *dp; int dlen; { register u_char *cp; register unsigned hval; register int n; n = dlen; if (n > 8) n = 8; hval = 0; while (--n >= 0) { hval <<= 1; hval += *dp++; } return (hval % INVHASHSZ); } #endif /*INVQ*/ /* int * nhash(name) * compute hash for this name and return it; ignore case differences */ int nhash(name) register const char *name; { register u_char ch; register unsigned hval; hval = 0; while ((ch = (u_char)*name++) != (u_char)'\0') { if (isascii(ch) && isupper(ch)) ch = tolower(ch); hval <<= 1; hval += ch; } return (hval % INVHASHSZ); } /* ** SAMEDOMAIN -- Check whether a name belongs to a domain ** ------------------------------------------------------ ** ** Returns: ** TRUE if the given name lies in the domain. ** FALSE otherwise. ** ** Trailing dots are first removed from name and domain. ** Always compare complete subdomains, not only whether the ** domain name is the trailing string of the given name. ** ** "host.foobar.top" lies in "foobar.top" and in "top" and in "" ** but NOT in "bar.top" ** ** this implementation of samedomain() is thanks to Bob Heiney. */ int samedomain(a, b) const char *a, *b; { size_t la, lb; const char *cp; la = strlen(a); lb = strlen(b); /* don't count trailing dots, if any. */ if (la && a[la-1]=='.') la--; if (lb && b[lb-1]=='.') lb--; /* lb==0 means b is the root domain, so a must be in b. */ if (lb == 0) return (1); /* b longer than a means a can't be in b. */ if (lb > la) return (0); /* We use strncasecmp because we might be trying to * ignore trailing dots. */ if (lb == la) return (strncasecmp(a, b, lb) == 0); /* Ok, we know la > lb. */ /* Point at the character before the last 'lb' characters of a. */ cp = a + (la - lb - 1); /* If it isn't '.', can't be a match (this lets us avoid * having "foobar.com" match "bar.com"). */ if (*cp != '.') return (0); cp++; /* We use strncasecmp because we might be trying to * ignore trailing dots. */ return (strncasecmp(cp, b, lb)==0); } #ifdef LOC_RR /* * routines to convert between on-the-wire RR format and zone file format. * Does not contain conversion to/from decimal degrees; divide or multiply * by 60*60*1000 for that. */ static unsigned int poweroften[10] = {1, 10, 100, 1000, 10000, 100000, 1000000,10000000,100000000,1000000000}; /* takes an XeY precision/size value, returns a string representation. */ static const char * precsize_ntoa(prec) u_int8_t prec; { static char retbuf[sizeof("90000000.00")]; unsigned long val; int mantissa, exponent; mantissa = (int)((prec >> 4) & 0x0f) % 10; exponent = (int)((prec >> 0) & 0x0f) % 10; val = mantissa * poweroften[exponent]; (void) sprintf(retbuf,"%d.%.2d", val/100, val%100); return (retbuf); } /* converts ascii size/precision X * 10**Y(cm) to 0xXY. moves pointer. */ static u_int8_t precsize_aton(strptr) char **strptr; { unsigned int mval = 0, cmval = 0; u_int8_t retval = 0; register char *cp; register int exponent; register int mantissa; cp = *strptr; while (isdigit(*cp)) mval = mval * 10 + (*cp++ - '0'); if (*cp == '.') { /* centimeters */ cp++; if (isdigit(*cp)) { cmval = (*cp++ - '0') * 10; if (isdigit(*cp)) { cmval += (*cp++ - '0'); } } } cmval = (mval * 100) + cmval; for (exponent = 0; exponent < 9; exponent++) if (cmval < poweroften[exponent+1]) break; mantissa = cmval / poweroften[exponent]; if (mantissa > 9) mantissa = 9; retval = (mantissa << 4) | exponent; *strptr = cp; return (retval); } /* converts ascii lat/lon to unsigned encoded 32-bit number. moves pointer. */ static u_int32_t latlon2ul(latlonstrptr,which) char **latlonstrptr; int *which; { register char *cp; u_int32_t retval; int deg = 0, min = 0, secs = 0, secsfrac = 0; cp = *latlonstrptr; while (isdigit(*cp)) deg = deg * 10 + (*cp++ - '0'); while (isspace(*cp)) cp++; if (!(isdigit(*cp))) goto fndhemi; while (isdigit(*cp)) min = min * 10 + (*cp++ - '0'); while (isspace(*cp)) cp++; if (!(isdigit(*cp))) goto fndhemi; while (isdigit(*cp)) secs = secs * 10 + (*cp++ - '0'); if (*cp == '.') { /* decimal seconds */ cp++; if (isdigit(*cp)) { secsfrac = (*cp++ - '0') * 100; if (isdigit(*cp)) { secsfrac += (*cp++ - '0') * 10; if (isdigit(*cp)) { secsfrac += (*cp++ - '0'); } } } } while (!isspace(*cp)) /* if any trailing garbage */ cp++; while (isspace(*cp)) cp++; fndhemi: switch (*cp) { case 'N': case 'n': case 'E': case 'e': retval = ((unsigned)1<<31) + (((((deg * 60) + min) * 60) + secs) * 1000) + secsfrac; break; case 'S': case 's': case 'W': case 'w': retval = ((unsigned)1<<31) - (((((deg * 60) + min) * 60) + secs) * 1000) - secsfrac; break; default: retval = 0; /* invalid value -- indicates error */ break; } switch (*cp) { case 'N': case 'n': case 'S': case 's': *which = 1; /* latitude */ break; case 'E': case 'e': case 'W': case 'w': *which = 2; /* longitude */ break; default: *which = 0; /* error */ break; } cp++; /* skip the hemisphere */ while (!isspace(*cp)) /* if any trailing garbage */ cp++; while (isspace(*cp)) /* move to next field */ cp++; *latlonstrptr = cp; return (retval); } /* converts a zone file representation in a string to an RDATA on-the-wire * representation. */ u_int32_t loc_aton(ascii, binary) const char *ascii; u_char *binary; { const char *cp, *maxcp; u_char *bcp; u_int32_t latit = 0, longit = 0, alt = 0; u_int32_t lltemp1 = 0, lltemp2 = 0; int altmeters = 0, altfrac = 0, altsign = 1; u_int8_t hp = 0x16; /* default = 1e6 cm = 10000.00m = 10km */ u_int8_t vp = 0x13; /* default = 1e3 cm = 10.00m */ u_int8_t siz = 0x12; /* default = 1e2 cm = 1.00m */ int which1 = 0, which2 = 0; cp = ascii; maxcp = cp + strlen(ascii); lltemp1 = latlon2ul(&cp, &which1); lltemp2 = latlon2ul(&cp, &which2); switch (which1 + which2) { case 3: /* 1 + 2, the only valid combination */ if ((which1 == 1) && (which2 == 2)) { /* normal case */ latit = lltemp1; longit = lltemp2; } else if ((which1 == 2) && (which2 == 1)) { /* reversed */ longit = lltemp1; latit = lltemp2; } else { /* some kind of brokenness */ return 0; } break; default: /* we didn't get one of each */ return 0; } /* altitude */ if (*cp == '-') { altsign = -1; cp++; } if (*cp == '+') cp++; while (isdigit(*cp)) altmeters = altmeters * 10 + (*cp++ - '0'); if (*cp == '.') { /* decimal meters */ cp++; if (isdigit(*cp)) { altfrac = (*cp++ - '0') * 10; if (isdigit(*cp)) { altfrac += (*cp++ - '0'); } } } alt = (10000000 + (altsign * (altmeters * 100 + altfrac))); while (!isspace(*cp) && (cp < maxcp)) /* if trailing garbage or m */ cp++; while (isspace(*cp) && (cp < maxcp)) cp++; if (cp >= maxcp) goto defaults; siz = precsize_aton(&cp); while (!isspace(*cp) && (cp < maxcp)) /* if trailing garbage or m */ cp++; while (isspace(*cp) && (cp < maxcp)) cp++; if (cp >= maxcp) goto defaults; hp = precsize_aton(&cp); while (!isspace(*cp) && (cp < maxcp)) /* if trailing garbage or m */ cp++; while (isspace(*cp) && (cp < maxcp)) cp++; if (cp >= maxcp) goto defaults; vp = precsize_aton(&cp); defaults: bcp = binary; *bcp++ = (u_int8_t) 0; /* version byte */ *bcp++ = siz; *bcp++ = hp; *bcp++ = vp; PUTLONG(latit,bcp); PUTLONG(longit,bcp); PUTLONG(alt,bcp); return (16); /* size of RR in octets */ } /* takes an on-the-wire LOC RR and prints it in zone file (human readable) format. */ char * loc_ntoa(binary,ascii) const u_char *binary; char *ascii; { static char tmpbuf[255*3]; register char *cp; register const u_char *rcp; int latdeg, latmin, latsec, latsecfrac; int longdeg, longmin, longsec, longsecfrac; char northsouth, eastwest; int altmeters, altfrac, altsign; const int referencealt = 100000 * 100; int32_t latval, longval, altval; u_int32_t templ; u_int8_t sizeval, hpval, vpval, versionval; char *sizestr, *hpstr, *vpstr; rcp = binary; cp = (ascii != NULL) ? ascii : tmpbuf; versionval = *rcp++; if (versionval) { sprintf(cp,"; error: unknown LOC RR version"); return (cp); } sizeval = *rcp++; hpval = *rcp++; vpval = *rcp++; GETLONG(templ,rcp); latval = (templ - ((unsigned)1<<31)); GETLONG(templ,rcp); longval = (templ - ((unsigned)1<<31)); GETLONG(templ,rcp); if (templ < referencealt) { /* below WGS 84 spheroid */ altval = referencealt - templ; altsign = -1; } else { altval = templ - referencealt; altsign = 1; } if (latval < 0) { northsouth = 'S'; latval = -latval; } else northsouth = 'N'; latsecfrac = latval % 1000; latval = latval / 1000; latsec = latval % 60; latval = latval / 60; latmin = latval % 60; latval = latval / 60; latdeg = latval; if (longval < 0) { eastwest = 'W'; longval = -longval; } else eastwest = 'E'; longsecfrac = longval % 1000; longval = longval / 1000; longsec = longval % 60; longval = longval / 60; longmin = longval % 60; longval = longval / 60; longdeg = longval; altfrac = altval % 100; altmeters = (altval / 100) * altsign; sizestr = savestr(precsize_ntoa(sizeval)); hpstr = savestr(precsize_ntoa(hpval)); vpstr = savestr(precsize_ntoa(vpval)); sprintf(cp, "%d %.2d %.2d.%.3d %c %d %.2d %.2d.%.3d %c %d.%.2dm %sm %sm %sm", latdeg, latmin, latsec, latsecfrac, northsouth, longdeg, longmin, longsec, longsecfrac, eastwest, altmeters, altfrac, sizestr, hpstr, vpstr); free(sizestr); free(hpstr); free(vpstr); return (cp); } #endif /* LOC_RR */ /* * Since the fields in a "struct timeval" are longs, and the argument to ctime * is a pointer to a time_t (which might not be a long), here's a bridge. */ char * ctimel(l) long l; { time_t t = (time_t)l; return (ctime(&t)); } /* * This is nec'y for systems that croak when deref'ing unaligned pointers. * SPARC is an example. Note that in_addr.s_addr needn't be a 32-bit int, * so we want to avoid bcopy and let the compiler do the casting for us. */ struct in_addr data_inaddr(data) const u_char *data; { struct in_addr ret; u_int32_t tmp; bcopy((char *)data, (char *)&tmp, INADDRSZ); ret.s_addr = tmp; return (ret); } /* Signal abstraction. */ void setsignal(catch, block, handler) int catch, block; SIG_FN (*handler)(); { #ifdef POSIX_SIGNALS /* Modern system - preferred. */ struct sigaction sa; memset(&sa, 0, sizeof sa); sa.sa_handler = handler; sigemptyset(&sa.sa_mask); if (block != -1) sigaddset(&sa.sa_mask, block); (void) sigaction(catch, &sa, NULL); #else /*POSIX_SIGNALS*/ #ifdef SYSV /* Ancient system - ugly. */ if (block != -1) syslog(LOG_DEBUG, "danger - unable to block signal %d from %d", block, catch); (void) signal(catch, handler); #else /*SYSV*/ /* BSD<=4.3 system - odd. */ struct sigvec sv; bzero(&sv, sizeof sv); sv.sv_handler = handler; sv.sv_mask = sigmask(block); (void) sigvec(catch, &sv, NULL); #endif /*SYSV*/ #endif /*POSIX_SIGNALS*/ } void resignal(catch, block, handler) int catch, block; SIG_FN (*handler)(); { #if !defined(POSIX_SIGNALS) && defined(SYSV) /* Unreliable signals. Set it back up again. */ setsignal(catch, block, handler); #endif }