/* dns-stuff.c - DNS related code including CERT RR (rfc-4398) * Copyright (C) 2003, 2005, 2006, 2009 Free Software Foundation, Inc. * Copyright (C) 2005, 2006, 2009, 2015 Werner Koch * * This file is part of GnuPG. * * This file is free software; you can redistribute it and/or modify * it under the terms of either * * - the GNU Lesser General Public License as published by the Free * Software Foundation; either version 3 of the License, or (at * your option) any later version. * * or * * - the GNU General Public License as published by the Free * Software Foundation; either version 2 of the License, or (at * your option) any later version. * * or both in parallel, as here. * * This file 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 this program; if not, see . */ #include #include #ifdef HAVE_W32_SYSTEM # ifdef HAVE_WINSOCK2_H # include # endif # include #else # include # include # include # include #endif #include #ifdef USE_ADNS # include #endif #if !defined(HAVE_GETADDRINFO) && !defined(USE_ADNS) # error Either getaddrinfo or the ADNS libary is required. #endif #include "util.h" #include "host2net.h" #include "dns-stuff.h" #if AF_UNSPEC != 0 # error AF_UNSPEC does not have the value 0 #endif /* Windows does not support tge AI_ADDRCONFIG flag - use zero instead. */ #ifndef AI_ADDRCONFIG # define AI_ADDRCONFIG 0 #endif /* Not every installation has gotten around to supporting SRVs or CERTs yet... */ #ifndef T_SRV #define T_SRV 33 #endif #ifndef T_CERT # define T_CERT 37 #endif /* ADNS has no support for CERT yet. */ #define my_adns_r_cert 37 /* If set Tor mode shall be used. */ static int tor_mode; /* Sets the module in Tor mode. Returns 0 is this is possible or an error code. */ gpg_error_t enable_dns_tormode (void) { #if defined(USE_DNS_CERT) && defined(USE_ADNS) # if HAVE_ADNS_IF_TORMODE tor_mode = 1; return 0; # endif #endif return gpg_error (GPG_ERR_NOT_IMPLEMENTED); } /* Free an addressinfo linked list as returned by resolve_dns_name. */ void free_dns_addrinfo (dns_addrinfo_t ai) { while (ai) { dns_addrinfo_t next = ai->next; xfree (ai); ai = next; } } static gpg_error_t map_eai_to_gpg_error (int ec) { gpg_error_t err; switch (ec) { case EAI_AGAIN: err = gpg_error (GPG_ERR_EAGAIN); break; case EAI_BADFLAGS: err = gpg_error (GPG_ERR_INV_FLAG); break; case EAI_FAIL: err = gpg_error (GPG_ERR_SERVER_FAILED); break; case EAI_MEMORY: err = gpg_error (GPG_ERR_ENOMEM); break; case EAI_NODATA: err = gpg_error (GPG_ERR_NO_DATA); break; case EAI_NONAME: err = gpg_error (GPG_ERR_NO_NAME); break; case EAI_SERVICE: err = gpg_error (GPG_ERR_NOT_SUPPORTED); break; case EAI_FAMILY: err = gpg_error (GPG_ERR_EAFNOSUPPORT); break; case EAI_SOCKTYPE: err = gpg_error (GPG_ERR_ESOCKTNOSUPPORT); break; #ifndef HAVE_W32_SYSTEM case EAI_ADDRFAMILY:err = gpg_error (GPG_ERR_EADDRNOTAVAIL); break; case EAI_SYSTEM: err = gpg_error_from_syserror (); break; #endif default: err = gpg_error (GPG_ERR_UNKNOWN_ERRNO); break; } return err; } /* Resolve a name using the standard system function. */ static gpg_error_t resolve_name_standard (const char *name, unsigned short port, int want_family, int want_socktype, dns_addrinfo_t *r_dai, char **r_canonname) { gpg_error_t err = 0; dns_addrinfo_t daihead = NULL; dns_addrinfo_t dai; struct addrinfo *aibuf = NULL; struct addrinfo hints, *ai; char portstr[21]; int ret; *r_dai = NULL; if (r_canonname) *r_canonname = NULL; memset (&hints, 0, sizeof hints); hints.ai_family = want_family; hints.ai_socktype = want_socktype; hints.ai_flags = AI_ADDRCONFIG; if (r_canonname) hints.ai_flags |= AI_CANONNAME; if (port) snprintf (portstr, sizeof portstr, "%hu", port); else *portstr = 0; /* We can't use the the AI_IDN flag because that does the conversion using the current locale. However, GnuPG always used UTF-8. To support IDN we would need to make use of the libidn API. */ ret = getaddrinfo (name, *portstr? portstr : NULL, &hints, &aibuf); if (ret) { aibuf = NULL; err = map_eai_to_gpg_error (ret); if (gpg_err_code (err) == GPG_ERR_NO_NAME) { /* There seems to be a bug in the glibc getaddrinfo function if the CNAME points to a long list of A and AAAA records in which case the function return NO_NAME. Let's do the CNAME redirection again. */ char *cname; if (get_dns_cname (name, &cname)) goto leave; /* Still no success. */ ret = getaddrinfo (cname, *portstr? portstr : NULL, &hints, &aibuf); xfree (cname); if (ret) { aibuf = NULL; err = map_eai_to_gpg_error (ret); goto leave; } err = 0; /* Yep, now it worked. */ } else goto leave; } if (r_canonname && aibuf && aibuf->ai_canonname) { *r_canonname = xtrystrdup (aibuf->ai_canonname); if (!*r_canonname) { err = gpg_error_from_syserror (); goto leave; } } for (ai = aibuf; ai; ai = ai->ai_next) { if (ai->ai_family != AF_INET6 && ai->ai_family != AF_INET) continue; dai = xtrymalloc (sizeof *dai + ai->ai_addrlen - 1); dai->family = ai->ai_family; dai->socktype = ai->ai_socktype; dai->protocol = ai->ai_protocol; dai->addrlen = ai->ai_addrlen; memcpy (dai->addr, ai->ai_addr, ai->ai_addrlen); dai->next = daihead; daihead = dai; } leave: if (aibuf) freeaddrinfo (aibuf); if (err) { if (r_canonname) { xfree (*r_canonname); *r_canonname = NULL; } free_dns_addrinfo (daihead); } else *r_dai = daihead; return err; } /* Resolve an address using the standard system function. */ static gpg_error_t resolve_addr_standard (const struct sockaddr *addr, int addrlen, unsigned int flags, char **r_name) { gpg_error_t err; int ec; char *buffer, *p; int buflen; *r_name = NULL; buflen = NI_MAXHOST; buffer = xtrymalloc (buflen + 2 + 1); if (!buffer) return gpg_error_from_syserror (); if ((flags & DNS_NUMERICHOST) || tor_mode) ec = EAI_NONAME; else ec = getnameinfo (addr, addrlen, buffer, buflen, NULL, 0, NI_NAMEREQD); if (!ec && *buffer == '[') ec = EAI_FAIL; /* A name may never start with a bracket. */ else if (ec == EAI_NONAME) { p = buffer; if (addr->sa_family == AF_INET6 && (flags & DNS_WITHBRACKET)) { *p++ = '['; buflen -= 2; } ec = getnameinfo (addr, addrlen, p, buflen, NULL, 0, NI_NUMERICHOST); if (!ec && addr->sa_family == AF_INET6 && (flags & DNS_WITHBRACKET)) strcat (buffer, "]"); } if (ec) err = map_eai_to_gpg_error (ec); else { p = xtryrealloc (buffer, strlen (buffer)+1); if (!p) err = gpg_error_from_syserror (); else { buffer = p; err = 0; } } if (err) xfree (buffer); else *r_name = buffer; return err; } /* This a wrapper around getaddrinfo with slighly different semantics. NAME is the name to resolve. PORT is the requested port or 0. WANT_FAMILY is either 0 (AF_UNSPEC), AF_INET6, or AF_INET4. WANT_SOCKETTYPE is either SOCK_STREAM or SOCK_DGRAM. On success the result is stored in a linked list with the head stored at the address R_AI; the caller must call gpg_addrinfo_free on this. If R_CANONNAME is not NULL the official name of the host is stored there as a malloced string; if that name is not available NULL is stored. */ gpg_error_t resolve_dns_name (const char *name, unsigned short port, int want_family, int want_socktype, dns_addrinfo_t *r_ai, char **r_canonname) { #ifdef USE_ADNS_disabled_for_now return resolve_name_adns (name, port, want_family, want_socktype, r_ai, r_canonname); #else return resolve_name_standard (name, port, want_family, want_socktype, r_ai, r_canonname); #endif } gpg_error_t resolve_dns_addr (const struct sockaddr *addr, int addrlen, unsigned int flags, char **r_name) { #ifdef USE_ADNS_disabled_for_now return resolve_addr_adns (addr, addrlen, flags, r_name); #else return resolve_addr_standard (addr, addrlen, flags, r_name); #endif } /* Check whether NAME is an IP address. Returns true if it is either an IPv6 or IPv4 numerical address. */ int is_ip_address (const char *name) { const char *s; int ndots, dblcol, n; if (*name == '[') return 1; /* yes: A legal DNS name may not contain this character; this mut be bracketed v6 address. */ if (*name == '.') return 0; /* No. A leading dot is not a valid IP address. */ /* Check whether this is a v6 address. */ ndots = n = dblcol = 0; for (s=name; *s; s++) { if (*s == ':') { ndots++; if (s[1] == ':') { ndots++; if (dblcol) return 0; /* No: Only one "::" allowed. */ dblcol++; if (s[1]) s++; } n = 0; } else if (*s == '.') goto legacy; else if (!strchr ("0123456789abcdefABCDEF", *s)) return 0; /* No: Not a hex digit. */ else if (++n > 4) return 0; /* To many digits in a group. */ } if (ndots > 7) return 0; /* No: Too many colons. */ else if (ndots > 1) return 1; /* Yes: At least 2 colons indicate an v6 address. */ legacy: /* Check whether it is legacy IP address. */ ndots = n = 0; for (s=name; *s; s++) { if (*s == '.') { if (s[1] == '.') return 0; /* No: Douple dot. */ if (atoi (s+1) > 255) return 0; /* No: Ipv4 byte value too large. */ ndots++; n = 0; } else if (!strchr ("0123456789", *s)) return 0; /* No: Not a digit. */ else if (++n > 3) return 0; /* No: More than 3 digits. */ } return !!(ndots == 3); } /* Return true if NAME is an onion address. */ int is_onion_address (const char *name) { size_t len; len = name? strlen (name) : 0; if (len < 8 || strcmp (name + len - 6, ".onion")) return 0; /* Note that we require at least 2 characters before the suffix. */ return 1; /* Yes. */ } #ifdef USE_ADNS /* Init ADNS and store the new state at R_STATE. Returns 0 on success; prints an error message and returns an error code on failure. */ static gpg_error_t my_adns_init (adns_state *r_state) { gpg_error_t err; if (tor_mode? adns_init_strcfg (r_state, adns_if_noerrprint|adns_if_tormode, NULL, "nameserver 8.8.8.8") /* */: adns_init (r_state, adns_if_noerrprint, NULL)) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); log_error ("error initializing adns: %s\n", gpg_strerror (err)); return err; } return 0; } #endif /*USE_ADNS*/ /* Returns 0 on success or an error code. If a PGP CERT record was found, the malloced data is returned at (R_KEY, R_KEYLEN) and the other return parameters are set to NULL/0. If an IPGP CERT record was found the fingerprint is stored as an allocated block at R_FPR and its length at R_FPRLEN; an URL is is allocated as a string and returned at R_URL. If WANT_CERTTYPE is 0 this function returns the first CERT found with a supported type; it is expected that only one CERT record is used. If WANT_CERTTYPE is one of the supported certtypes only records with this certtype are considered and the first found is returned. (R_KEY,R_KEYLEN) are optional. */ gpg_error_t get_dns_cert (const char *name, int want_certtype, void **r_key, size_t *r_keylen, unsigned char **r_fpr, size_t *r_fprlen, char **r_url) { #ifdef USE_DNS_CERT #ifdef USE_ADNS gpg_error_t err; adns_state state; adns_answer *answer = NULL; unsigned int ctype; int count; if (r_key) *r_key = NULL; if (r_keylen) *r_keylen = 0; *r_fpr = NULL; *r_fprlen = 0; *r_url = NULL; err = my_adns_init (&state); if (err) return err; if (adns_synchronous (state, name, (adns_r_unknown | (want_certtype < DNS_CERTTYPE_RRBASE ? my_adns_r_cert : (want_certtype - DNS_CERTTYPE_RRBASE))), adns_qf_quoteok_query, &answer)) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); /* log_error ("DNS query failed: %s\n", strerror (errno)); */ adns_finish (state); return err; } if (answer->status != adns_s_ok) { /* log_error ("DNS query returned an error: %s (%s)\n", */ /* adns_strerror (answer->status), */ /* adns_errabbrev (answer->status)); */ err = gpg_err_make (default_errsource, GPG_ERR_NOT_FOUND); goto leave; } err = gpg_err_make (default_errsource, GPG_ERR_NOT_FOUND); for (count = 0; count < answer->nrrs; count++) { int datalen = answer->rrs.byteblock[count].len; const unsigned char *data = answer->rrs.byteblock[count].data; /* First check for our generic RR hack. */ if (datalen && want_certtype >= DNS_CERTTYPE_RRBASE && ((want_certtype - DNS_CERTTYPE_RRBASE) == (answer->type & ~adns_r_unknown))) { /* Found the requested record - return it. */ *r_key = xtrymalloc (datalen); if (!*r_key) err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); else { memcpy (*r_key, data, datalen); *r_keylen = datalen; err = 0; } goto leave; } if (datalen < 5) continue; /* Truncated CERT record - skip. */ ctype = buf16_to_uint (data); /* (key tag and algorithm fields are not required.) */ data += 5; datalen -= 5; if (want_certtype && want_certtype != ctype) ; /* Not of the requested certtype. */ else if (ctype == DNS_CERTTYPE_PGP && datalen >= 11 && r_key && r_keylen) { /* CERT type is PGP. Gpg checks for a minimum length of 11, thus we do the same. */ *r_key = xtrymalloc (datalen); if (!*r_key) err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); else { memcpy (*r_key, data, datalen); *r_keylen = datalen; err = 0; } goto leave; } else if (ctype == DNS_CERTTYPE_IPGP && datalen && datalen < 1023 && datalen >= data[0] + 1 && r_fpr && r_fprlen && r_url) { /* CERT type is IPGP. We made sure that the data is plausible and that the caller requested this information. */ *r_fprlen = data[0]; if (*r_fprlen) { *r_fpr = xtrymalloc (*r_fprlen); if (!*r_fpr) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); goto leave; } memcpy (*r_fpr, data + 1, *r_fprlen); } else *r_fpr = NULL; if (datalen > *r_fprlen + 1) { *r_url = xtrymalloc (datalen - (*r_fprlen + 1) + 1); if (!*r_url) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); xfree (*r_fpr); *r_fpr = NULL; goto leave; } memcpy (*r_url, data + (*r_fprlen + 1), datalen - (*r_fprlen + 1)); (*r_url)[datalen - (*r_fprlen + 1)] = '\0'; } else *r_url = NULL; err = 0; goto leave; } } leave: adns_free (answer); adns_finish (state); return err; #else /*!USE_ADNS*/ gpg_error_t err; unsigned char *answer; int r; u16 count; if (r_key) *r_key = NULL; if (r_keylen) *r_keylen = 0; *r_fpr = NULL; *r_fprlen = 0; *r_url = NULL; /* Allocate a 64k buffer which is the limit for an DNS response. */ answer = xtrymalloc (65536); if (!answer) return gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); err = gpg_err_make (default_errsource, GPG_ERR_NOT_FOUND); r = res_query (name, C_IN, (want_certtype < DNS_CERTTYPE_RRBASE ? T_CERT : (want_certtype - DNS_CERTTYPE_RRBASE)), answer, 65536); /* Not too big, not too small, no errors and at least 1 answer. */ if (r >= sizeof (HEADER) && r <= 65536 && (((HEADER *) answer)->rcode) == NOERROR && (count = ntohs (((HEADER *) answer)->ancount))) { int rc; unsigned char *pt, *emsg; emsg = &answer[r]; pt = &answer[sizeof (HEADER)]; /* Skip over the query */ rc = dn_skipname (pt, emsg); if (rc == -1) { err = gpg_err_make (default_errsource, GPG_ERR_INV_OBJ); goto leave; } pt += rc + QFIXEDSZ; /* There are several possible response types for a CERT request. We're interested in the PGP (a key) and IPGP (a URI) types. Skip all others. TODO: A key is better than a URI since we've gone through all this bother to fetch it, so favor that if we have both PGP and IPGP? */ while (count-- > 0 && pt < emsg) { u16 type, class, dlen, ctype; rc = dn_skipname (pt, emsg); /* the name we just queried for */ if (rc == -1) { err = gpg_err_make (default_errsource, GPG_ERR_INV_OBJ); goto leave; } pt += rc; /* Truncated message? 15 bytes takes us to the point where we start looking at the ctype. */ if ((emsg - pt) < 15) break; type = buf16_to_u16 (pt); pt += 2; class = buf16_to_u16 (pt); pt += 2; if (class != C_IN) break; /* ttl */ pt += 4; /* data length */ dlen = buf16_to_u16 (pt); pt += 2; /* Check the type and parse. */ if (want_certtype >= DNS_CERTTYPE_RRBASE && type == (want_certtype - DNS_CERTTYPE_RRBASE) && r_key) { *r_key = xtrymalloc (dlen); if (!*r_key) err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); else { memcpy (*r_key, pt, dlen); *r_keylen = dlen; err = 0; } goto leave; } else if (want_certtype >= DNS_CERTTYPE_RRBASE) { /* We did not found the requested RR. */ pt += dlen; } else if (type == T_CERT) { /* We got a CERT type. */ ctype = buf16_to_u16 (pt); pt += 2; /* Skip the CERT key tag and algo which we don't need. */ pt += 3; dlen -= 5; /* 15 bytes takes us to here */ if (want_certtype && want_certtype != ctype) ; /* Not of the requested certtype. */ else if (ctype == DNS_CERTTYPE_PGP && dlen && r_key && r_keylen) { /* PGP type */ *r_key = xtrymalloc (dlen); if (!*r_key) err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); else { memcpy (*r_key, pt, dlen); *r_keylen = dlen; err = 0; } goto leave; } else if (ctype == DNS_CERTTYPE_IPGP && dlen && dlen < 1023 && dlen >= pt[0] + 1) { /* IPGP type */ *r_fprlen = pt[0]; if (*r_fprlen) { *r_fpr = xtrymalloc (*r_fprlen); if (!*r_fpr) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); goto leave; } memcpy (*r_fpr, &pt[1], *r_fprlen); } else *r_fpr = NULL; if (dlen > *r_fprlen + 1) { *r_url = xtrymalloc (dlen - (*r_fprlen + 1) + 1); if (!*r_fpr) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); xfree (*r_fpr); *r_fpr = NULL; goto leave; } memcpy (*r_url, &pt[*r_fprlen + 1], dlen - (*r_fprlen + 1)); (*r_url)[dlen - (*r_fprlen + 1)] = '\0'; } else *r_url = NULL; err = 0; goto leave; } /* No subtype matches, so continue with the next answer. */ pt += dlen; } else { /* Not a requested type - might be a CNAME. Try next item. */ pt += dlen; } } } leave: xfree (answer); return err; #endif /*!USE_ADNS */ #else /* !USE_DNS_CERT */ (void)name; if (r_key) *r_key = NULL; if (r_keylen) *r_keylen = NULL; *r_fpr = NULL; *r_fprlen = 0; *r_url = NULL; return gpg_err_make (default_errsource, GPG_ERR_NOT_SUPPORTED); #endif } #ifdef USE_DNS_SRV static int priosort(const void *a,const void *b) { const struct srventry *sa=a,*sb=b; if(sa->priority>sb->priority) return 1; else if(sa->prioritypriority) return -1; else return 0; } int getsrv (const char *name,struct srventry **list) { int srvcount=0; u16 count; int i, rc; *list = NULL; #ifdef USE_ADNS { adns_state state; adns_answer *answer = NULL; if (my_adns_init (&state)) return -1; rc = adns_synchronous (state, name, adns_r_srv, adns_qf_quoteok_query, &answer); if (rc) { log_error ("DNS query failed: %s\n", strerror (errno)); adns_finish (state); return -1; } if (answer->status != adns_s_ok || answer->type != adns_r_srv || !answer->nrrs) { log_error ("DNS query returned an error or no records: %s (%s)\n", adns_strerror (answer->status), adns_errabbrev (answer->status)); adns_free (answer); adns_finish (state); return 0; } for (count = 0; count < answer->nrrs; count++) { struct srventry *srv = NULL; struct srventry *newlist; if (strlen (answer->rrs.srvha[count].ha.host) >= sizeof srv->target) { log_info ("hostname in SRV record too long - skipped\n"); continue; } newlist = xtryrealloc (*list, (srvcount+1)*sizeof(struct srventry)); if (!newlist) goto fail; *list = newlist; memset (&(*list)[srvcount], 0, sizeof(struct srventry)); srv = &(*list)[srvcount]; srvcount++; srv->priority = answer->rrs.srvha[count].priority; srv->weight = answer->rrs.srvha[count].weight; srv->port = answer->rrs.srvha[count].port; strcpy (srv->target, answer->rrs.srvha[count].ha.host); } adns_free (answer); adns_finish (state); } #else /*!USE_ADNS*/ { unsigned char answer[2048]; HEADER *header = (HEADER *)answer; unsigned char *pt, *emsg; int r; u16 dlen; /* Do not allow a query using the standard resolver in Tor mode. */ if (tor_mode) return -1; r = res_query (name, C_IN, T_SRV, answer, sizeof answer); if (r < sizeof (HEADER) || r > sizeof answer) return -1; if (header->rcode != NOERROR || !(count=ntohs (header->ancount))) return 0; /* Error or no record found. */ emsg = &answer[r]; pt = &answer[sizeof(HEADER)]; /* Skip over the query */ rc = dn_skipname (pt, emsg); if (rc == -1) goto fail; pt += rc + QFIXEDSZ; while (count-- > 0 && pt < emsg) { struct srventry *srv=NULL; u16 type,class; struct srventry *newlist; newlist = xtryrealloc (*list, (srvcount+1)*sizeof(struct srventry)); if (!newlist) goto fail; *list = newlist; memset(&(*list)[srvcount],0,sizeof(struct srventry)); srv=&(*list)[srvcount]; srvcount++; rc = dn_skipname(pt,emsg); /* the name we just queried for */ if (rc == -1) goto fail; pt+=rc; /* Truncated message? */ if((emsg-pt)<16) goto fail; type = buf16_to_u16 (pt); pt += 2; /* We asked for SRV and got something else !? */ if(type!=T_SRV) goto fail; class = buf16_to_u16 (pt); pt += 2; /* We asked for IN and got something else !? */ if(class!=C_IN) goto fail; pt += 4; /* ttl */ dlen = buf16_to_u16 (pt); pt += 2; srv->priority = buf16_to_ushort (pt); pt += 2; srv->weight = buf16_to_ushort (pt); pt += 2; srv->port = buf16_to_ushort (pt); pt += 2; /* Get the name. 2782 doesn't allow name compression, but dn_expand still works to pull the name out of the packet. */ rc = dn_expand(answer,emsg,pt,srv->target, sizeof srv->target); if (rc == 1 && srv->target[0] == 0) /* "." */ { xfree(*list); *list = NULL; return 0; } if (rc == -1) goto fail; pt += rc; /* Corrupt packet? */ if (dlen != rc+6) goto fail; } } #endif /*!USE_ADNS*/ /* Now we have an array of all the srv records. */ /* Order by priority */ qsort(*list,srvcount,sizeof(struct srventry),priosort); /* For each priority, move the zero-weighted items first. */ for (i=0; i < srvcount; i++) { int j; for (j=i;j < srvcount && (*list)[i].priority == (*list)[j].priority; j++) { if((*list)[j].weight==0) { /* Swap j with i */ if(j!=i) { struct srventry temp; memcpy (&temp,&(*list)[j],sizeof(struct srventry)); memcpy (&(*list)[j],&(*list)[i],sizeof(struct srventry)); memcpy (&(*list)[i],&temp,sizeof(struct srventry)); } break; } } } /* Run the RFC-2782 weighting algorithm. We don't need very high quality randomness for this, so regular libc srand/rand is sufficient. Fixme: It is a bit questionaly to reinitalize srand - better use a gnupg fucntion for this. */ srand(time(NULL)*getpid()); for (i=0; i < srvcount; i++) { int j; float prio_count=0,chose; for (j=i; j < srvcount && (*list)[i].priority == (*list)[j].priority; j++) { prio_count+=(*list)[j].weight; (*list)[j].run_count=prio_count; } chose=prio_count*rand()/RAND_MAX; for (j=i;jstatus != adns_s_ok || answer->type != adns_r_cname || answer->nrrs != 1) { err = gpg_error (GPG_ERR_GENERAL); log_error ("DNS query returned an error or no records: %s (%s)\n", adns_strerror (answer->status), adns_errabbrev (answer->status)); adns_free (answer); adns_finish (state); return err; } *r_cname = xtrystrdup (answer->rrs.str[0]); if (!*r_cname) err = gpg_error_from_syserror (); else err = 0; adns_free (answer); adns_finish (state); return err; } #else /*!USE_ADNS*/ { unsigned char answer[2048]; HEADER *header = (HEADER *)answer; unsigned char *pt, *emsg; int r; char *cname; int cnamesize = 1025; u16 count; /* Do not allow a query using the standard resolver in Tor mode. */ if (tor_mode) return -1; r = res_query (name, C_IN, T_CERT, answer, sizeof answer); if (r < sizeof (HEADER) || r > sizeof answer) return gpg_error (GPG_ERR_SERVER_FAILED); if (header->rcode != NOERROR || !(count=ntohs (header->ancount))) return gpg_error (GPG_ERR_NO_NAME); /* Error or no record found. */ if (count != 1) return gpg_error (GPG_ERR_SERVER_FAILED); emsg = &answer[r]; pt = &answer[sizeof(HEADER)]; rc = dn_skipname (pt, emsg); if (rc == -1) return gpg_error (GPG_ERR_SERVER_FAILED); pt += rc + QFIXEDSZ; if (pt >= emsg) return gpg_error (GPG_ERR_SERVER_FAILED); rc = dn_skipname (pt, emsg); if (rc == -1) return gpg_error (GPG_ERR_SERVER_FAILED); pt += rc + 2 + 2 + 4; if (pt+2 >= emsg) return gpg_error (GPG_ERR_SERVER_FAILED); pt += 2; /* Skip rdlen */ cname = xtrymalloc (cnamesize); if (!cname) return gpg_error_from_syserror (); rc = dn_expand (answer, emsg, pt, cname, cnamesize -1); if (rc == -1) { xfree (cname); return gpg_error (GPG_ERR_SERVER_FAILED); } *r_cname = xtryrealloc (cname, strlen (cname)+1); if (!*r_cname) { err = gpg_error_from_syserror (); xfree (cname); return err; } return 0; } #endif /*!USE_ADNS*/ }