/* $KAME: name6.c,v 1.25 2000/06/26 16:44:40 itojun Exp $ */ /* * Copyright (C) 1995, 1996, 1997, 1998, and 1999 WIDE Project. * 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. Neither the name of the project 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 PROJECT 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 PROJECT 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. */ /* * ++Copyright++ 1985, 1988, 1993 * - * Copyright (c) 1985, 1988, 1993 * 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-- */ /* * Atsushi Onoe */ /* * TODO for thread safe * use mutex for _hostconf, _hostconf_init. * rewrite resolvers to be thread safe */ #include __FBSDID("$FreeBSD$"); #include "namespace.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "un-namespace.h" #ifndef _PATH_HOSTS #define _PATH_HOSTS "/etc/hosts" #endif #ifndef MAXALIASES #define MAXALIASES 10 #endif #ifndef MAXADDRS #define MAXADDRS 20 #endif #ifndef MAXDNAME #define MAXDNAME 1025 #endif #ifdef INET6 #define ADDRLEN(af) ((af) == AF_INET6 ? sizeof(struct in6_addr) : \ sizeof(struct in_addr)) #else #define ADDRLEN(af) sizeof(struct in_addr) #endif #define MAPADDR(ab, ina) \ do { \ memcpy(&(ab)->map_inaddr, ina, sizeof(struct in_addr)); \ memset((ab)->map_zero, 0, sizeof((ab)->map_zero)); \ memset((ab)->map_one, 0xff, sizeof((ab)->map_one)); \ } while (0) #define MAPADDRENABLED(flags) \ (((flags) & AI_V4MAPPED) || \ (((flags) & AI_V4MAPPED_CFG) && _mapped_addr_enabled())) union inx_addr { struct in_addr in_addr; #ifdef INET6 struct in6_addr in6_addr; #endif struct { u_char mau_zero[10]; u_char mau_one[2]; struct in_addr mau_inaddr; } map_addr_un; #define map_zero map_addr_un.mau_zero #define map_one map_addr_un.mau_one #define map_inaddr map_addr_un.mau_inaddr }; static struct hostent *_hpcopy(struct hostent *hp, int *errp); static struct hostent *_hpaddr(int af, const char *name, void *addr, int *errp); static struct hostent *_hpmerge(struct hostent *hp1, struct hostent *hp2, int *errp); #ifdef INET6 static struct hostent *_hpmapv6(struct hostent *hp, int *errp); #endif static struct hostent *_hpsort(struct hostent *hp); static struct hostent *_ghbyname(const char *name, int af, int flags, int *errp); static char *_hgetword(char **pp); static int _mapped_addr_enabled(void); static FILE *_files_open(int *errp); static int _files_ghbyname(void *, void *, va_list); static int _files_ghbyaddr(void *, void *, va_list); static void _files_shent(int stayopen); static void _files_ehent(void); #ifdef YP static int _nis_ghbyname(void *, void *, va_list); static int _nis_ghbyaddr(void *, void *, va_list); #endif static int _dns_ghbyname(void *, void *, va_list); static int _dns_ghbyaddr(void *, void *, va_list); static void _dns_shent(int stayopen); static void _dns_ehent(void); #ifdef ICMPNL static int _icmp_ghbyaddr(void *, void *, va_list); #endif /* ICMPNL */ /* Host lookup order if nsswitch.conf is broken or nonexistant */ static const ns_src default_src[] = { { NSSRC_FILES, NS_SUCCESS }, { NSSRC_DNS, NS_SUCCESS }, #ifdef ICMPNL #define NSSRC_ICMP "icmp" { NSSRC_ICMP, NS_SUCCESS }, #endif { 0 } }; /* * Check if kernel supports mapped address. * implementation dependent */ #ifdef __KAME__ #include #endif /* __KAME__ */ static int _mapped_addr_enabled(void) { /* implementation dependent check */ #if defined(__KAME__) && defined(IPV6CTL_MAPPED_ADDR) int mib[4]; size_t len; int val; mib[0] = CTL_NET; mib[1] = PF_INET6; mib[2] = IPPROTO_IPV6; mib[3] = IPV6CTL_MAPPED_ADDR; len = sizeof(val); if (sysctl(mib, 4, &val, &len, 0, 0) == 0 && val != 0) return 1; #endif /* __KAME__ && IPV6CTL_MAPPED_ADDR */ return 0; } /* * Functions defined in RFC2553 * getipnodebyname, getipnodebyaddr, freehostent */ static struct hostent * _ghbyname(const char *name, int af, int flags, int *errp) { struct hostent *hp; int rval; static const ns_dtab dtab[] = { NS_FILES_CB(_files_ghbyname, NULL) { NSSRC_DNS, _dns_ghbyname, NULL }, NS_NIS_CB(_nis_ghbyname, NULL) { 0 } }; if (flags & AI_ADDRCONFIG) { int s; /* * TODO: * Note that implementation dependent test for address * configuration should be done everytime called * (or apropriate interval), * because addresses will be dynamically assigned or deleted. */ if (af == AF_UNSPEC) { if ((s = _socket(AF_INET6, SOCK_DGRAM, 0)) < 0) af = AF_INET; else { _close(s); if ((s = _socket(AF_INET, SOCK_DGRAM, 0)) < 0) af = AF_INET6; else _close(s); } } if (af != AF_UNSPEC) { if ((s = _socket(af, SOCK_DGRAM, 0)) < 0) return NULL; _close(s); } } rval = nsdispatch(&hp, dtab, NSDB_HOSTS, "ghbyname", default_src, name, af, errp); return (rval == NS_SUCCESS) ? hp : NULL; } /* getipnodebyname() internal routine for multiple query(PF_UNSPEC) support. */ struct hostent * _getipnodebyname_multi(const char *name, int af, int flags, int *errp) { struct hostent *hp; union inx_addr addrbuf; /* XXX: PF_UNSPEC is only supposed to be passed from getaddrinfo() */ if (af != AF_INET #ifdef INET6 && af != AF_INET6 #endif && af != PF_UNSPEC ) { *errp = NO_RECOVERY; return NULL; } #ifdef INET6 /* special case for literal address */ if (inet_pton(AF_INET6, name, &addrbuf) == 1) { if (af != AF_INET6) { *errp = HOST_NOT_FOUND; return NULL; } return _hpaddr(af, name, &addrbuf, errp); } #endif if (inet_aton(name, (struct in_addr *)&addrbuf) == 1) { if (af != AF_INET) { if (MAPADDRENABLED(flags)) { MAPADDR(&addrbuf, &addrbuf.in_addr); } else { *errp = HOST_NOT_FOUND; return NULL; } } return _hpaddr(af, name, &addrbuf, errp); } *errp = HOST_NOT_FOUND; hp = _ghbyname(name, af, flags, errp); #ifdef INET6 if (af == AF_INET6 && ((flags & AI_ALL) || hp == NULL) && (MAPADDRENABLED(flags))) { struct hostent *hp2 = _ghbyname(name, AF_INET, flags, errp); if (hp == NULL) hp = _hpmapv6(hp2, errp); else { if (hp2 && strcmp(hp->h_name, hp2->h_name) != 0) { freehostent(hp2); hp2 = NULL; } hp = _hpmerge(hp, hp2, errp); } } #endif return _hpsort(hp); } struct hostent * getipnodebyname(const char *name, int af, int flags, int *errp) { if (af != AF_INET #ifdef INET6 && af != AF_INET6 #endif ) { *errp = NO_RECOVERY; return NULL; } return(_getipnodebyname_multi(name, af ,flags, errp)); } struct hostent * getipnodebyaddr(const void *src, size_t len, int af, int *errp) { struct hostent *hp; int rval; #ifdef INET6 struct in6_addr addrbuf; #else struct in_addr addrbuf; #endif static const ns_dtab dtab[] = { NS_FILES_CB(_files_ghbyaddr, NULL) { NSSRC_DNS, _dns_ghbyaddr, NULL }, NS_NIS_CB(_nis_ghbyaddr, NULL) #ifdef ICMPNL { NSSRC_ICMP, _icmp_ghbyaddr, NULL }, #endif { 0 } }; *errp = HOST_NOT_FOUND; switch (af) { case AF_INET: if (len != sizeof(struct in_addr)) { *errp = NO_RECOVERY; return NULL; } if ((long)src & ~(sizeof(struct in_addr) - 1)) { memcpy(&addrbuf, src, len); src = &addrbuf; } if (((struct in_addr *)src)->s_addr == 0) return NULL; break; #ifdef INET6 case AF_INET6: if (len != sizeof(struct in6_addr)) { *errp = NO_RECOVERY; return NULL; } if ((long)src & ~(sizeof(struct in6_addr) / 2 - 1)) { /*XXX*/ memcpy(&addrbuf, src, len); src = &addrbuf; } if (IN6_IS_ADDR_UNSPECIFIED((struct in6_addr *)src)) return NULL; if (IN6_IS_ADDR_V4MAPPED((struct in6_addr *)src) || IN6_IS_ADDR_V4COMPAT((struct in6_addr *)src)) { src = (char *)src + (sizeof(struct in6_addr) - sizeof(struct in_addr)); af = AF_INET; len = sizeof(struct in_addr); } break; #endif default: *errp = NO_RECOVERY; return NULL; } rval = nsdispatch(&hp, dtab, NSDB_HOSTS, "ghbyaddr", default_src, src, len, af, errp); return (rval == NS_SUCCESS) ? hp : NULL; } void freehostent(struct hostent *ptr) { free(ptr); } #if 0 /* XXX: should be deprecated */ struct hostent * getnodebyname(const char *name, int af, int flags) { return getipnodebyname(name, af, flags, &h_errno); } #ifdef __warn_references __warn_references(getnodebyname, "warning: getnodebyname() deprecated, " "should use getaddrinfo() or getipnodebyname()"); #endif struct hostent * getnodebyaddr(const void *src, size_t len, int af) { return getipnodebyaddr(src, len, af, &h_errno); } #ifdef __warn_references __warn_references(getnodebyaddr, "warning: getnodebyaddr() deprecated, " "should use getnameinfo() or getipnodebyaddr()"); #endif #endif /* * Private utility functions */ /* * _hpcopy: allocate and copy hostent structure */ static struct hostent * _hpcopy(struct hostent *hp, int *errp) { struct hostent *nhp; char *cp, **pp; int size, addrsize; int nalias = 0, naddr = 0; int al_off; int i; if (hp == NULL) return hp; /* count size to be allocated */ size = sizeof(struct hostent); if (hp->h_name != NULL) size += strlen(hp->h_name) + 1; if ((pp = hp->h_aliases) != NULL) { for (i = 0; *pp != NULL; i++, pp++) { if (**pp != '\0') { size += strlen(*pp) + 1; nalias++; } } } /* adjust alignment */ size = ALIGN(size); al_off = size; size += sizeof(char *) * (nalias + 1); addrsize = ALIGN(hp->h_length); if ((pp = hp->h_addr_list) != NULL) { while (*pp++ != NULL) naddr++; } size += addrsize * naddr; size += sizeof(char *) * (naddr + 1); /* copy */ if ((nhp = (struct hostent *)malloc(size)) == NULL) { *errp = TRY_AGAIN; return NULL; } cp = (char *)&nhp[1]; if (hp->h_name != NULL) { nhp->h_name = cp; strcpy(cp, hp->h_name); cp += strlen(cp) + 1; } else nhp->h_name = NULL; nhp->h_aliases = (char **)((char *)nhp + al_off); if ((pp = hp->h_aliases) != NULL) { for (i = 0; *pp != NULL; pp++) { if (**pp != '\0') { nhp->h_aliases[i++] = cp; strcpy(cp, *pp); cp += strlen(cp) + 1; } } } nhp->h_aliases[nalias] = NULL; cp = (char *)&nhp->h_aliases[nalias + 1]; nhp->h_addrtype = hp->h_addrtype; nhp->h_length = hp->h_length; nhp->h_addr_list = (char **)cp; if ((pp = hp->h_addr_list) != NULL) { cp = (char *)&nhp->h_addr_list[naddr + 1]; for (i = 0; *pp != NULL; pp++) { nhp->h_addr_list[i++] = cp; memcpy(cp, *pp, hp->h_length); cp += addrsize; } } nhp->h_addr_list[naddr] = NULL; return nhp; } /* * _hpaddr: construct hostent structure with one address */ static struct hostent * _hpaddr(int af, const char *name, void *addr, int *errp) { struct hostent *hp, hpbuf; char *addrs[2]; hp = &hpbuf; hp->h_name = (char *)name; hp->h_aliases = NULL; hp->h_addrtype = af; hp->h_length = ADDRLEN(af); hp->h_addr_list = addrs; addrs[0] = (char *)addr; addrs[1] = NULL; return _hpcopy(hp, errp); } /* * _hpmerge: merge 2 hostent structure, arguments will be freed */ static struct hostent * _hpmerge(struct hostent *hp1, struct hostent *hp2, int *errp) { int i, j; int naddr, nalias; char **pp; struct hostent *hp, hpbuf; char *aliases[MAXALIASES + 1], *addrs[MAXADDRS + 1]; union inx_addr addrbuf[MAXADDRS]; if (hp1 == NULL) return hp2; if (hp2 == NULL) return hp1; #define HP(i) (i == 1 ? hp1 : hp2) hp = &hpbuf; hp->h_name = (hp1->h_name != NULL ? hp1->h_name : hp2->h_name); hp->h_aliases = aliases; nalias = 0; for (i = 1; i <= 2; i++) { if ((pp = HP(i)->h_aliases) == NULL) continue; for (; nalias < MAXALIASES && *pp != NULL; pp++) { /* check duplicates */ for (j = 0; j < nalias; j++) if (strcasecmp(*pp, aliases[j]) == 0) break; if (j == nalias) aliases[nalias++] = *pp; } } aliases[nalias] = NULL; #ifdef INET6 if (hp1->h_length != hp2->h_length) { hp->h_addrtype = AF_INET6; hp->h_length = sizeof(struct in6_addr); } else { #endif hp->h_addrtype = hp1->h_addrtype; hp->h_length = hp1->h_length; #ifdef INET6 } #endif hp->h_addr_list = addrs; naddr = 0; for (i = 1; i <= 2; i++) { if ((pp = HP(i)->h_addr_list) == NULL) continue; if (HP(i)->h_length == hp->h_length) { while (naddr < MAXADDRS && *pp != NULL) addrs[naddr++] = *pp++; } else { /* copy IPv4 addr as mapped IPv6 addr */ while (naddr < MAXADDRS && *pp != NULL) { MAPADDR(&addrbuf[naddr], *pp++); addrs[naddr] = (char *)&addrbuf[naddr]; naddr++; } } } addrs[naddr] = NULL; hp = _hpcopy(hp, errp); freehostent(hp1); freehostent(hp2); return hp; } /* * _hpmapv6: convert IPv4 hostent into IPv4-mapped IPv6 addresses */ #ifdef INET6 static struct hostent * _hpmapv6(struct hostent *hp, int *errp) { struct hostent *hp6; if (hp == NULL) return NULL; if (hp->h_addrtype == AF_INET6) return hp; /* make dummy hostent to convert IPv6 address */ if ((hp6 = (struct hostent *)malloc(sizeof(struct hostent))) == NULL) { *errp = TRY_AGAIN; return NULL; } hp6->h_name = NULL; hp6->h_aliases = NULL; hp6->h_addrtype = AF_INET6; hp6->h_length = sizeof(struct in6_addr); hp6->h_addr_list = NULL; return _hpmerge(hp6, hp, errp); } #endif /* * _hpsort: sort address by sortlist */ static struct hostent * _hpsort(struct hostent *hp) { int i, j, n; u_char *ap, *sp, *mp, **pp; char t; char order[MAXADDRS]; int nsort = _res.nsort; if (hp == NULL || hp->h_addr_list[1] == NULL || nsort == 0) return hp; for (i = 0; (ap = (u_char *)hp->h_addr_list[i]); i++) { for (j = 0; j < nsort; j++) { #ifdef INET6 if (_res_ext.sort_list[j].af != hp->h_addrtype) continue; sp = (u_char *)&_res_ext.sort_list[j].addr; mp = (u_char *)&_res_ext.sort_list[j].mask; #else sp = (u_char *)&_res.sort_list[j].addr; mp = (u_char *)&_res.sort_list[j].mask; #endif for (n = 0; n < hp->h_length; n++) { if ((ap[n] & mp[n]) != sp[n]) break; } if (n == hp->h_length) break; } order[i] = j; } n = i; pp = (u_char **)hp->h_addr_list; for (i = 0; i < n - 1; i++) { for (j = i + 1; j < n; j++) { if (order[i] > order[j]) { ap = pp[i]; pp[i] = pp[j]; pp[j] = ap; t = order[i]; order[i] = order[j]; order[j] = t; } } } return hp; } static char * _hgetword(char **pp) { char c, *p, *ret; const char *sp; static const char sep[] = "# \t\n"; ret = NULL; for (p = *pp; (c = *p) != '\0'; p++) { for (sp = sep; *sp != '\0'; sp++) { if (c == *sp) break; } if (c == '#') p[1] = '\0'; /* ignore rest of line */ if (ret == NULL) { if (*sp == '\0') ret = p; } else { if (*sp != '\0') { *p++ = '\0'; break; } } } *pp = p; if (ret == NULL || *ret == '\0') return NULL; return ret; } /* * FILES (/etc/hosts) */ static FILE * _files_open(int *errp) { FILE *fp; fp = fopen(_PATH_HOSTS, "r"); if (fp == NULL) *errp = NO_RECOVERY; return fp; } static int _files_ghbyname(void *rval, void *cb_data, va_list ap) { const char *name; int af; int *errp; int match, nalias; char *p, *line, *addrstr, *cname; FILE *fp; struct hostent *rethp, *hp, hpbuf; char *aliases[MAXALIASES + 1], *addrs[2]; union inx_addr addrbuf; char buf[BUFSIZ]; int af0; name = va_arg(ap, const char *); af = va_arg(ap, int); errp = va_arg(ap, int *); *(struct hostent **)rval = NULL; if ((fp = _files_open(errp)) == NULL) return NS_UNAVAIL; rethp = hp = NULL; af0 = af; while (fgets(buf, sizeof(buf), fp)) { line = buf; if ((addrstr = _hgetword(&line)) == NULL || (cname = _hgetword(&line)) == NULL) continue; match = (strcasecmp(cname, name) == 0); nalias = 0; while ((p = _hgetword(&line)) != NULL) { if (!match) match = (strcasecmp(p, name) == 0); if (nalias < MAXALIASES) aliases[nalias++] = p; } if (!match) continue; switch (af0) { case AF_INET: if (inet_aton(addrstr, (struct in_addr *)&addrbuf) != 1) { *errp = NO_DATA; /* name found */ continue; } af = af0; break; #ifdef INET6 case AF_INET6: if (inet_pton(af, addrstr, &addrbuf) != 1) { *errp = NO_DATA; /* name found */ continue; } af = af0; break; #endif case AF_UNSPEC: if (inet_aton(addrstr, (struct in_addr *)&addrbuf) == 1) { af = AF_INET; break; } #ifdef INET6 if (inet_pton(AF_INET6, addrstr, &addrbuf) == 1) { af = AF_INET6; break; } #endif *errp = NO_DATA; /* name found */ continue; /* NOTREACHED */ } hp = &hpbuf; hp->h_name = cname; hp->h_aliases = aliases; aliases[nalias] = NULL; hp->h_addrtype = af; hp->h_length = ADDRLEN(af); hp->h_addr_list = addrs; addrs[0] = (char *)&addrbuf; addrs[1] = NULL; hp = _hpcopy(hp, errp); rethp = _hpmerge(rethp, hp, errp); } fclose(fp); *(struct hostent **)rval = rethp; return (rethp != NULL) ? NS_SUCCESS : NS_NOTFOUND; } static int _files_ghbyaddr(void *rval, void *cb_data, va_list ap) { const void *addr; int addrlen; int af; int *errp; int nalias; char *p, *line; FILE *fp; struct hostent *hp, hpbuf; char *aliases[MAXALIASES + 1], *addrs[2]; union inx_addr addrbuf; char buf[BUFSIZ]; addr = va_arg(ap, const void *); addrlen = va_arg(ap, int); af = va_arg(ap, int); errp = va_arg(ap, int *); *(struct hostent**)rval = NULL; if ((fp = _files_open(errp)) == NULL) return NS_UNAVAIL; hp = NULL; while (fgets(buf, sizeof(buf), fp)) { line = buf; if ((p = _hgetword(&line)) == NULL || (af == AF_INET ? inet_aton(p, (struct in_addr *)&addrbuf) : inet_pton(af, p, &addrbuf)) != 1 || memcmp(addr, &addrbuf, addrlen) != 0 || (p = _hgetword(&line)) == NULL) continue; hp = &hpbuf; hp->h_name = p; hp->h_aliases = aliases; nalias = 0; while ((p = _hgetword(&line)) != NULL) { if (nalias < MAXALIASES) aliases[nalias++] = p; } aliases[nalias] = NULL; hp->h_addrtype = af; hp->h_length = addrlen; hp->h_addr_list = addrs; addrs[0] = (char *)&addrbuf; addrs[1] = NULL; hp = _hpcopy(hp, errp); break; } fclose(fp); *(struct hostent **)rval = hp; return (hp != NULL) ? NS_SUCCESS : NS_NOTFOUND; } #ifdef YP /* * NIS * * XXX actually a hack, these are INET4 specific. */ static int _nis_ghbyname(void *rval, void *cb_data, va_list ap) { const char *name; int af; int *errp; struct hostent *hp = NULL; name = va_arg(ap, const char *); af = va_arg(ap, int); errp = va_arg(ap, int *); if (af == AF_UNSPEC) af = AF_INET; if (af == AF_INET) { hp = _gethostbynisname(name, af); if (hp != NULL) hp = _hpcopy(hp, errp); } *(struct hostent **)rval = hp; return (hp != NULL) ? NS_SUCCESS : NS_NOTFOUND; } static int _nis_ghbyaddr(void *rval, void *cb_data, va_list ap) { const void *addr; int addrlen; int af; int *errp; struct hostent *hp = NULL; addr = va_arg(ap, const void *); addrlen = va_arg(ap, int); af = va_arg(ap, int); if (af == AF_INET) { hp = _gethostbynisaddr(addr, addrlen, af); if (hp != NULL) hp = _hpcopy(hp, errp); } *(struct hostent **)rval = hp; return (hp != NULL) ? NS_SUCCESS : NS_NOTFOUND; } #endif struct __res_type_list { SLIST_ENTRY(__res_type_list) rtl_entry; int rtl_type; }; #if PACKETSZ > 1024 #define MAXPACKET PACKETSZ #else #define MAXPACKET 1024 #endif typedef union { HEADER hdr; u_char buf[MAXPACKET]; } querybuf; static struct hostent *getanswer(const querybuf *, int, const char *, int, struct hostent *, int *); /* * we don't need to take care about sorting, nor IPv4 mapped address here. */ static struct hostent * getanswer(answer, anslen, qname, qtype, template, errp) const querybuf *answer; int anslen; const char *qname; int qtype; struct hostent *template; int *errp; { const HEADER *hp; const u_char *cp; int n; const u_char *eom, *erdata; char *bp, *ep, **ap, **hap; int type, class, ancount, qdcount; int haveanswer, had_error; char tbuf[MAXDNAME]; const char *tname; int (*name_ok)(const char *); static char *h_addr_ptrs[MAXADDRS + 1]; static char *host_aliases[MAXALIASES]; static char hostbuf[8*1024]; #define BOUNDED_INCR(x) \ do { \ cp += x; \ if (cp > eom) { \ *errp = NO_RECOVERY; \ return (NULL); \ } \ } while (0) #define BOUNDS_CHECK(ptr, count) \ do { \ if ((ptr) + (count) > eom) { \ *errp = NO_RECOVERY; \ return (NULL); \ } \ } while (0) /* XXX do {} while (0) cannot be put here */ #define DNS_ASSERT(x) \ { \ if (!(x)) { \ cp += n; \ continue; \ } \ } /* XXX do {} while (0) cannot be put here */ #define DNS_FATAL(x) \ { \ if (!(x)) { \ had_error++; \ continue; \ } \ } tname = qname; template->h_name = NULL; eom = answer->buf + anslen; switch (qtype) { case T_A: case T_AAAA: name_ok = res_hnok; break; case T_PTR: name_ok = res_dnok; break; default: return (NULL); /* XXX should be abort(); */ } /* * find first satisfactory answer */ hp = &answer->hdr; ancount = ntohs(hp->ancount); qdcount = ntohs(hp->qdcount); bp = hostbuf; ep = hostbuf + sizeof hostbuf; cp = answer->buf; BOUNDED_INCR(HFIXEDSZ); if (qdcount != 1) { *errp = NO_RECOVERY; return (NULL); } n = dn_expand(answer->buf, eom, cp, bp, ep - bp); if ((n < 0) || !(*name_ok)(bp)) { *errp = NO_RECOVERY; return (NULL); } BOUNDED_INCR(n + QFIXEDSZ); if (qtype == T_A || qtype == T_AAAA) { /* res_send() has already verified that the query name is the * same as the one we sent; this just gets the expanded name * (i.e., with the succeeding search-domain tacked on). */ n = strlen(bp) + 1; /* for the \0 */ if (n >= MAXHOSTNAMELEN) { *errp = NO_RECOVERY; return (NULL); } template->h_name = bp; bp += n; /* The qname can be abbreviated, but h_name is now absolute. */ qname = template->h_name; } ap = host_aliases; *ap = NULL; template->h_aliases = host_aliases; hap = h_addr_ptrs; *hap = NULL; template->h_addr_list = h_addr_ptrs; haveanswer = 0; had_error = 0; while (ancount-- > 0 && cp < eom && !had_error) { n = dn_expand(answer->buf, eom, cp, bp, ep - bp); DNS_FATAL(n >= 0); DNS_FATAL((*name_ok)(bp)); cp += n; /* name */ BOUNDS_CHECK(cp, 3 * INT16SZ + INT32SZ); type = _getshort(cp); cp += INT16SZ; /* type */ class = _getshort(cp); cp += INT16SZ + INT32SZ; /* class, TTL */ n = _getshort(cp); cp += INT16SZ; /* len */ BOUNDS_CHECK(cp, n); erdata = cp + n; DNS_ASSERT(class == C_IN); if ((qtype == T_A || qtype == T_AAAA) && type == T_CNAME) { if (ap >= &host_aliases[MAXALIASES-1]) continue; n = dn_expand(answer->buf, eom, cp, tbuf, sizeof tbuf); DNS_FATAL(n >= 0); DNS_FATAL((*name_ok)(tbuf)); cp += n; if (cp != erdata) { *errp = NO_RECOVERY; return (NULL); } /* Store alias. */ *ap++ = bp; n = strlen(bp) + 1; /* for the \0 */ DNS_FATAL(n < MAXHOSTNAMELEN); bp += n; /* Get canonical name. */ n = strlen(tbuf) + 1; /* for the \0 */ DNS_FATAL(n <= ep - bp); DNS_FATAL(n < MAXHOSTNAMELEN); strcpy(bp, tbuf); template->h_name = bp; bp += n; continue; } if (qtype == T_PTR && type == T_CNAME) { n = dn_expand(answer->buf, eom, cp, tbuf, sizeof tbuf); if (n < 0 || !res_dnok(tbuf)) { had_error++; continue; } cp += n; if (cp != erdata) { *errp = NO_RECOVERY; return (NULL); } /* Get canonical name. */ n = strlen(tbuf) + 1; /* for the \0 */ if (n > ep - bp || n >= MAXHOSTNAMELEN) { had_error++; continue; } strcpy(bp, tbuf); tname = bp; bp += n; continue; } DNS_ASSERT(type == qtype); switch (type) { case T_PTR: DNS_ASSERT(strcasecmp(tname, bp) == 0); n = dn_expand(answer->buf, eom, cp, bp, ep - bp); DNS_FATAL(n >= 0); DNS_FATAL(res_hnok(bp)); #if MULTI_PTRS_ARE_ALIASES cp += n; if (cp != erdata) { *errp = NO_RECOVERY; return (NULL); } if (!haveanswer) template->h_name = bp; else if (ap < &host_aliases[MAXALIASES-1]) *ap++ = bp; else n = -1; if (n != -1) { n = strlen(bp) + 1; /* for the \0 */ if (n >= MAXHOSTNAMELEN) { had_error++; break; } bp += n; } break; #else template->h_name = bp; *errp = NETDB_SUCCESS; return (template); #endif case T_A: case T_AAAA: DNS_ASSERT(strcasecmp(template->h_name, bp) == 0); DNS_ASSERT(n == template->h_length); if (!haveanswer) { int nn; template->h_name = bp; nn = strlen(bp) + 1; /* for the \0 */ bp += nn; } bp = (char *)ALIGN(bp); DNS_FATAL(bp + n < ep); DNS_ASSERT(hap < &h_addr_ptrs[MAXADDRS-1]); #ifdef FILTER_V4MAPPED if (type == T_AAAA) { struct in6_addr in6; memcpy(&in6, cp, sizeof(in6)); DNS_ASSERT(IN6_IS_ADDR_V4MAPPED(&in6) == 0); } #endif bcopy(cp, *hap++ = bp, n); bp += n; cp += n; if (cp != erdata) { *errp = NO_RECOVERY; return (NULL); } break; default: abort(); } if (!had_error) haveanswer++; } if (haveanswer) { *ap = NULL; *hap = NULL; if (!template->h_name) { n = strlen(qname) + 1; /* for the \0 */ if (n > ep - bp || n >= MAXHOSTNAMELEN) goto no_recovery; strcpy(bp, qname); template->h_name = bp; bp += n; } *errp = NETDB_SUCCESS; return (template); } no_recovery: *errp = NO_RECOVERY; return (NULL); #undef BOUNDED_INCR #undef BOUNDS_CHECK #undef DNS_ASSERT #undef DNS_FATAL } /* res_search() variant with multiple query support. */ static struct hostent * _res_search_multi(name, rtl, errp) const char *name; /* domain name */ struct __res_type_list *rtl; /* list of query types */ int *errp; { const char *cp, * const *domain; struct hostent *hp0 = NULL, *hp; struct hostent hpbuf; u_int dots; int trailing_dot, ret, saved_herrno; int got_nodata = 0, got_servfail = 0, tried_as_is = 0; struct __res_type_list *rtl0 = rtl; querybuf buf; if ((_res.options & RES_INIT) == 0 && res_init() == -1) { *errp = NETDB_INTERNAL; return (NULL); } dots = 0; for (cp = name; *cp; cp++) dots += (*cp == '.'); trailing_dot = 0; if (cp > name && *--cp == '.') trailing_dot++; /* If there aren't any dots, it could be a user-level alias */ if (!dots && (cp = hostalias(name)) != NULL) { for(rtl = rtl0; rtl != NULL; rtl = SLIST_NEXT(rtl, rtl_entry)) { ret = res_query(cp, C_IN, rtl->rtl_type, buf.buf, sizeof(buf.buf)); if (ret > 0) { hpbuf.h_addrtype = (rtl->rtl_type == T_AAAA) ? AF_INET6 : AF_INET; hpbuf.h_length = ADDRLEN(hpbuf.h_addrtype); hp = getanswer(&buf, ret, name, rtl->rtl_type, &hpbuf, errp); if (!hp) continue; hp = _hpcopy(&hpbuf, errp); hp0 = _hpmerge(hp0, hp, errp); } } return (hp0); } /* * If there are dots in the name already, let's just give it a try * 'as is'. The threshold can be set with the "ndots" option. */ saved_herrno = -1; if (dots >= _res.ndots) { for(rtl = rtl0; rtl != NULL; rtl = SLIST_NEXT(rtl, rtl_entry)) { ret = res_querydomain(name, NULL, C_IN, rtl->rtl_type, buf.buf, sizeof(buf.buf)); if (ret > 0) { hpbuf.h_addrtype = (rtl->rtl_type == T_AAAA) ? AF_INET6 : AF_INET; hpbuf.h_length = ADDRLEN(hpbuf.h_addrtype); hp = getanswer(&buf, ret, name, rtl->rtl_type, &hpbuf, errp); if (!hp) continue; hp = _hpcopy(&hpbuf, errp); hp0 = _hpmerge(hp0, hp, errp); } } if (hp0 != NULL) return (hp0); saved_herrno = *errp; tried_as_is++; } /* * We do at least one level of search if * - there is no dot and RES_DEFNAME is set, or * - there is at least one dot, there is no trailing dot, * and RES_DNSRCH is set. */ if ((!dots && (_res.options & RES_DEFNAMES)) || (dots && !trailing_dot && (_res.options & RES_DNSRCH))) { int done = 0; for (domain = (const char * const *)_res.dnsrch; *domain && !done; domain++) { for(rtl = rtl0; rtl != NULL; rtl = SLIST_NEXT(rtl, rtl_entry)) { ret = res_querydomain(name, *domain, C_IN, rtl->rtl_type, buf.buf, sizeof(buf.buf)); if (ret > 0) { hpbuf.h_addrtype = (rtl->rtl_type == T_AAAA) ? AF_INET6 : AF_INET; hpbuf.h_length = ADDRLEN(hpbuf.h_addrtype); hp = getanswer(&buf, ret, name, rtl->rtl_type, &hpbuf, errp); if (!hp) continue; hp = _hpcopy(&hpbuf, errp); hp0 = _hpmerge(hp0, hp, errp); } } if (hp0 != NULL) return (hp0); /* * If no server present, give up. * If name isn't found in this domain, * keep trying higher domains in the search list * (if that's enabled). * On a NO_DATA error, keep trying, otherwise * a wildcard entry of another type could keep us * from finding this entry higher in the domain. * If we get some other error (negative answer or * server failure), then stop searching up, * but try the input name below in case it's * fully-qualified. */ if (errno == ECONNREFUSED) { *errp = TRY_AGAIN; return (NULL); } switch (*errp) { case NO_DATA: got_nodata++; /* FALLTHROUGH */ case HOST_NOT_FOUND: /* keep trying */ break; case TRY_AGAIN: if (buf.hdr.rcode == SERVFAIL) { /* try next search element, if any */ got_servfail++; break; } /* FALLTHROUGH */ default: /* anything else implies that we're done */ done++; } /* if we got here for some reason other than DNSRCH, * we only wanted one iteration of the loop, so stop. */ if (!(_res.options & RES_DNSRCH)) done++; } } /* * If we have not already tried the name "as is", do that now. * note that we do this regardless of how many dots were in the * name or whether it ends with a dot unless NOTLDQUERY is set. */ if (!tried_as_is && (dots || !(_res.options & RES_NOTLDQUERY))) { for(rtl = rtl0; rtl != NULL; rtl = SLIST_NEXT(rtl, rtl_entry)) { ret = res_querydomain(name, NULL, C_IN, rtl->rtl_type, buf.buf, sizeof(buf.buf)); if (ret > 0) { hpbuf.h_addrtype = (rtl->rtl_type == T_AAAA) ? AF_INET6 : AF_INET; hpbuf.h_length = ADDRLEN(hpbuf.h_addrtype); hp = getanswer(&buf, ret, name, rtl->rtl_type, &hpbuf, errp); if (!hp) continue; hp = _hpcopy(&hpbuf, errp); hp0 = _hpmerge(hp0, hp, errp); } } if (hp0 != NULL) return (hp0); } /* if we got here, we didn't satisfy the search. * if we did an initial full query, return that query's h_errno * (note that we wouldn't be here if that query had succeeded). * else if we ever got a nodata, send that back as the reason. * else send back meaningless h_errno, that being the one from * the last DNSRCH we did. */ if (saved_herrno != -1) *errp = saved_herrno; else if (got_nodata) *errp = NO_DATA; else if (got_servfail) *errp = TRY_AGAIN; return (NULL); } static int _dns_ghbyname(void *rval, void *cb_data, va_list ap) { const char *name; int af; int *errp; struct __res_type_list *rtl, rtl4; #ifdef INET6 struct __res_type_list rtl6; #endif name = va_arg(ap, const char *); af = va_arg(ap, int); errp = va_arg(ap, int *); #ifdef INET6 switch (af) { case AF_UNSPEC: SLIST_NEXT(&rtl4, rtl_entry) = NULL; rtl4.rtl_type = T_A; SLIST_NEXT(&rtl6, rtl_entry) = &rtl4; rtl6.rtl_type = T_AAAA; rtl = &rtl6; break; case AF_INET6: SLIST_NEXT(&rtl6, rtl_entry) = NULL; rtl6.rtl_type = T_AAAA; rtl = &rtl6; break; case AF_INET: SLIST_NEXT(&rtl4, rtl_entry) = NULL; rtl4.rtl_type = T_A; rtl = &rtl4; break; } #else SLIST_NEXT(&rtl4, rtl_entry) = NULL; rtl4.rtl_type = T_A; rtl = &rtl4; #endif *(struct hostent **)rval = _res_search_multi(name, rtl, errp); return (*(struct hostent **)rval != NULL) ? NS_SUCCESS : NS_NOTFOUND; } static int _dns_ghbyaddr(void *rval, void *cb_data, va_list ap) { const void *addr; int addrlen; int af; int *errp; int n; struct hostent *hp; u_char c, *cp; char *bp; struct hostent hbuf; int na; #ifdef INET6 static const char hex[] = "0123456789abcdef"; #endif querybuf buf; char qbuf[MAXDNAME+1]; char *hlist[2]; addr = va_arg(ap, const void *); addrlen = va_arg(ap, int); af = va_arg(ap, int); errp = va_arg(ap, int *); *(struct hostent **)rval = NULL; #ifdef INET6 /* XXX */ if (af == AF_INET6 && IN6_IS_ADDR_LINKLOCAL((struct in6_addr *)addr)) return NS_NOTFOUND; #endif if ((_res.options & RES_INIT) == 0) { if (res_init() < 0) { *errp = h_errno; return NS_UNAVAIL; } } memset(&hbuf, 0, sizeof(hbuf)); hbuf.h_name = NULL; hbuf.h_addrtype = af; hbuf.h_length = addrlen; na = 0; /* XXX assumes that MAXDNAME is big enough */ n = 0; bp = qbuf; cp = (u_char *)addr+addrlen-1; switch (af) { #ifdef INET6 case AF_INET6: for (; n < addrlen; n++, cp--) { c = *cp; *bp++ = hex[c & 0xf]; *bp++ = '.'; *bp++ = hex[c >> 4]; *bp++ = '.'; } strcpy(bp, "ip6.int"); break; #endif default: for (; n < addrlen; n++, cp--) { c = *cp; if (c >= 100) *bp++ = '0' + c / 100; if (c >= 10) *bp++ = '0' + (c % 100) / 10; *bp++ = '0' + c % 10; *bp++ = '.'; } strcpy(bp, "in-addr.arpa"); break; } n = res_query(qbuf, C_IN, T_PTR, buf.buf, sizeof buf.buf); if (n < 0) { *errp = h_errno; return NS_UNAVAIL; } hp = getanswer(&buf, n, qbuf, T_PTR, &hbuf, errp); if (!hp) return NS_NOTFOUND; hbuf.h_addrtype = af; hbuf.h_length = addrlen; hbuf.h_addr_list = hlist; hlist[0] = (char *)addr; hlist[1] = NULL; *(struct hostent **)rval = _hpcopy(&hbuf, errp); return NS_SUCCESS; } static void _dns_shent(int stayopen) { if ((_res.options & RES_INIT) == 0) { if (res_init() < 0) return; } if (stayopen) _res.options |= RES_STAYOPEN | RES_USEVC; } static void _dns_ehent(void) { _res.options &= ~(RES_STAYOPEN | RES_USEVC); res_close(); } #ifdef ICMPNL /* * experimental: * draft-ietf-ipngwg-icmp-namelookups-02.txt * ifindex is assumed to be encoded in addr. */ #include #include #include struct _icmp_host_cache { struct _icmp_host_cache *hc_next; int hc_ifindex; struct in6_addr hc_addr; char *hc_name; }; static char * _icmp_fqdn_query(const struct in6_addr *addr, int ifindex) { int s; struct icmp6_filter filter; struct msghdr msg; struct cmsghdr *cmsg; struct in6_pktinfo *pkt; char cbuf[256]; char buf[1024]; int cc; struct icmp6_fqdn_query *fq; struct icmp6_fqdn_reply *fr; struct _icmp_host_cache *hc; struct sockaddr_in6 sin6; struct iovec iov; fd_set s_fds, fds; struct timeval tout; int len; char *name; static int pid; static struct _icmp_host_cache *hc_head; for (hc = hc_head; hc; hc = hc->hc_next) { if (hc->hc_ifindex == ifindex && IN6_ARE_ADDR_EQUAL(&hc->hc_addr, addr)) return hc->hc_name; } if (pid == 0) pid = getpid(); ICMP6_FILTER_SETBLOCKALL(&filter); ICMP6_FILTER_SETPASS(ICMP6_FQDN_REPLY, &filter); FD_ZERO(&s_fds); tout.tv_sec = 0; tout.tv_usec = 200000; /*XXX: 200ms*/ fq = (struct icmp6_fqdn_query *)buf; fq->icmp6_fqdn_type = ICMP6_FQDN_QUERY; fq->icmp6_fqdn_code = 0; fq->icmp6_fqdn_cksum = 0; fq->icmp6_fqdn_id = (u_short)pid; fq->icmp6_fqdn_unused = 0; fq->icmp6_fqdn_cookie[0] = 0; fq->icmp6_fqdn_cookie[1] = 0; memset(&sin6, 0, sizeof(sin6)); sin6.sin6_family = AF_INET6; sin6.sin6_addr = *addr; memset(&msg, 0, sizeof(msg)); msg.msg_name = (caddr_t)&sin6; msg.msg_namelen = sizeof(sin6); msg.msg_iov = &iov; msg.msg_iovlen = 1; msg.msg_control = NULL; msg.msg_controllen = 0; iov.iov_base = (caddr_t)buf; iov.iov_len = sizeof(struct icmp6_fqdn_query); if (ifindex) { msg.msg_control = cbuf; msg.msg_controllen = sizeof(cbuf); cmsg = CMSG_FIRSTHDR(&msg); cmsg->cmsg_len = CMSG_LEN(sizeof(struct in6_pktinfo)); cmsg->cmsg_level = IPPROTO_IPV6; cmsg->cmsg_type = IPV6_PKTINFO; pkt = (struct in6_pktinfo *)&cmsg[1]; memset(&pkt->ipi6_addr, 0, sizeof(struct in6_addr)); pkt->ipi6_ifindex = ifindex; cmsg = CMSG_NXTHDR(&msg, cmsg); msg.msg_controllen = (char *)cmsg - cbuf; } if ((s = _socket(PF_INET6, SOCK_RAW, IPPROTO_ICMPV6)) < 0) return NULL; (void)_setsockopt(s, IPPROTO_ICMPV6, ICMP6_FILTER, (char *)&filter, sizeof(filter)); cc = _sendmsg(s, &msg, 0); if (cc < 0) { _close(s); return NULL; } FD_SET(s, &s_fds); for (;;) { fds = s_fds; if (_select(s + 1, &fds, NULL, NULL, &tout) <= 0) { _close(s); return NULL; } len = sizeof(sin6); cc = _recvfrom(s, buf, sizeof(buf), 0, (struct sockaddr *)&sin6, &len); if (cc <= 0) { _close(s); return NULL; } if (cc < sizeof(struct ip6_hdr) + sizeof(struct icmp6_hdr)) continue; if (!IN6_ARE_ADDR_EQUAL(addr, &sin6.sin6_addr)) continue; fr = (struct icmp6_fqdn_reply *)(buf + sizeof(struct ip6_hdr)); if (fr->icmp6_fqdn_type == ICMP6_FQDN_REPLY) break; } _close(s); if (fr->icmp6_fqdn_cookie[1] != 0) { /* rfc1788 type */ name = buf + sizeof(struct ip6_hdr) + sizeof(struct icmp6_hdr) + 4; len = (buf + cc) - name; } else { len = fr->icmp6_fqdn_namelen; name = fr->icmp6_fqdn_name; } if (len <= 0) return NULL; name[len] = 0; if ((hc = (struct _icmp_host_cache *)malloc(sizeof(*hc))) == NULL) return NULL; /* XXX: limit number of cached entries */ hc->hc_ifindex = ifindex; hc->hc_addr = *addr; hc->hc_name = strdup(name); hc->hc_next = hc_head; hc_head = hc; return hc->hc_name; } static struct hostent * _icmp_ghbyaddr(const void *addr, int addrlen, int af, int *errp) { char *hname; int ifindex; struct in6_addr addr6; if (af != AF_INET6) { /* * Note: rfc1788 defines Who Are You for IPv4, * but no one implements it. */ return NULL; } memcpy(&addr6, addr, addrlen); ifindex = (addr6.s6_addr[2] << 8) | addr6.s6_addr[3]; addr6.s6_addr[2] = addr6.s6_addr[3] = 0; if (!IN6_IS_ADDR_LINKLOCAL(&addr6)) return NULL; /*XXX*/ if ((hname = _icmp_fqdn_query(&addr6, ifindex)) == NULL) return NULL; return _hpaddr(af, hname, &addr6, errp); } #endif /* ICMPNL */