/* * adh-query.c * - useful general-purpose resolver client program * make queries and print answers */ /* * This file is * Copyright (C) 1997-2000 Ian Jackson * * It is part of adns, which is * Copyright (C) 1997-2000 Ian Jackson * Copyright (C) 1999-2000 Tony Finch * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program 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, write to the Free Software Foundation, * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifdef ADNS_JGAA_WIN32 # include "adns_win32.h" #endif #include "adnshost.h" adns_state ads; struct outstanding_list outstanding; static unsigned long idcounter; void ensure_adns_init(void) { adns_initflags initflags; int r; if (ads) return; #ifdef SIGPIPE if (signal(SIGPIPE,SIG_IGN) == SIG_ERR) sysfail("ignore SIGPIPE",errno); #endif initflags= adns_if_noautosys|adns_if_nosigpipe|ov_verbose; if (!ov_env) initflags |= adns_if_noenv; if (config_text) { r= adns_init_strcfg(&ads, initflags, stderr, config_text); } else { r= adns_init(&ads, initflags, 0); } if (r) sysfail("adns_init",r); if (ov_format == fmt_default) ov_format= ov_asynch ? fmt_asynch : fmt_simple; } static void prep_query(struct query_node **qun_r, int *quflags_r) { struct query_node *qun; char idbuf[20]; if (ov_pipe && !ads) usageerr("-f/--pipe not consistent with domains on command line"); ensure_adns_init(); qun= malloc(sizeof(*qun)); qun->pqfr= ov_pqfr; if (ov_id) { qun->id= xstrsave(ov_id); } else { sprintf(idbuf,"%lu",idcounter++); idcounter &= 0x0fffffffflu; qun->id= xstrsave(idbuf); } *quflags_r= (ov_search ? adns_qf_search : 0) | (ov_tcp ? adns_qf_usevc : 0) | ((ov_pqfr.show_owner || ov_format == fmt_simple) ? adns_qf_owner : 0) | (ov_qc_query ? adns_qf_quoteok_query : 0) | (ov_qc_anshost ? adns_qf_quoteok_anshost : 0) | (ov_qc_cname ? 0 : adns_qf_quoteok_cname) | ov_cname, *qun_r= qun; } void of_ptr(const struct optioninfo *oi, const char *arg, const char *arg2) { struct query_node *qun; int quflags, r; struct sockaddr_in sa; memset(&sa,0,sizeof(sa)); sa.sin_family= AF_INET; if (!inet_aton(arg,&sa.sin_addr)) usageerr("invalid IP address %s",arg); prep_query(&qun,&quflags); qun->owner= xstrsave(arg); r= adns_submit_reverse(ads, (struct sockaddr*)&sa, ov_type == adns_r_none ? adns_r_ptr : ov_type, quflags, qun, &qun->qu); if (r) sysfail("adns_submit_reverse",r); LIST_LINK_TAIL(outstanding,qun); } void of_reverse(const struct optioninfo *oi, const char *arg, const char *arg2) { struct query_node *qun; int quflags, r; struct sockaddr_in sa; memset(&sa,0,sizeof(sa)); sa.sin_family= AF_INET; if (!inet_aton(arg,&sa.sin_addr)) usageerr("invalid IP address %s",arg); prep_query(&qun,&quflags); qun->owner= xmalloc(strlen(arg) + strlen(arg2) + 2); sprintf(qun->owner, "%s %s", arg,arg2); r= adns_submit_reverse_any(ads, (struct sockaddr*)&sa, arg2, ov_type == adns_r_none ? adns_r_txt : ov_type, quflags, qun, &qun->qu); if (r) sysfail("adns_submit_reverse",r); LIST_LINK_TAIL(outstanding,qun); } void query_do(const char *domain) { struct query_node *qun; int quflags, r; prep_query(&qun,&quflags); qun->owner= xstrsave(domain); r= adns_submit(ads, domain, ov_type == adns_r_none ? adns_r_addr : ov_type, quflags, qun, &qun->qu); if (r) sysfail("adns_submit",r); LIST_LINK_TAIL(outstanding,qun); } static void dequeue_query(struct query_node *qun) { LIST_UNLINK(outstanding,qun); free(qun->id); free(qun->owner); free(qun); } static void print_withspace(const char *str) { if (printf("%s ", str) == EOF) outerr(); } static void print_ttl(struct query_node *qun, adns_answer *answer) { unsigned long ttl; time_t now; switch (qun->pqfr.ttl) { case tm_none: return; case tm_rel: if (time(&now) == (time_t)-1) sysfail("get current time",errno); ttl= answer->expires < now ? 0 : answer->expires - now; break; case tm_abs: ttl= answer->expires; break; default: abort(); } if (printf("%lu ",ttl) == EOF) outerr(); } static const char *owner_show(struct query_node *qun, adns_answer *answer) { return answer->owner ? answer->owner : qun->owner; } static void print_owner_ttl(struct query_node *qun, adns_answer *answer) { if (qun->pqfr.show_owner) print_withspace(owner_show(qun,answer)); print_ttl(qun,answer); } static void check_status(adns_status st) { static const adns_status statuspoints[]= { adns_s_ok, adns_s_max_localfail, adns_s_max_remotefail, adns_s_max_tempfail, adns_s_max_misconfig, adns_s_max_misquery }; const adns_status *spp; int minrcode; for (minrcode=0, spp=statuspoints; spp < statuspoints + (sizeof(statuspoints)/sizeof(statuspoints[0])); spp++) if (st > *spp) minrcode++; if (rcode < minrcode) rcode= minrcode; } static void print_status(adns_status st, struct query_node *qun, adns_answer *answer) { const char *statustypeabbrev, *statusabbrev, *statusstring; statustypeabbrev= adns_errtypeabbrev(st); statusabbrev= adns_errabbrev(st); statusstring= adns_strerror(st); assert(!strchr(statusstring,'"')); if (printf("%s %d %s ", statustypeabbrev, st, statusabbrev) == EOF) outerr(); print_owner_ttl(qun,answer); if (qun->pqfr.show_cname) print_withspace(answer->cname ? answer->cname : "$"); if (printf("\"%s\"\n", statusstring) == EOF) outerr(); } static void print_dnsfail(adns_status st, struct query_node *qun, adns_answer *answer) { int r; const char *typename, *statusstring; adns_status ist; if (ov_format == fmt_inline) { if (fputs("; failed ",stdout) == EOF) outerr(); print_status(st,qun,answer); return; } assert(ov_format == fmt_simple); if (st == adns_s_nxdomain) { r= fprintf(stderr,"%s does not exist\n", owner_show(qun,answer)); } else { ist= adns_rr_info(answer->type, &typename, 0,0,0,0); if (st == adns_s_nodata) { r= fprintf(stderr,"%s has no %s record\n", owner_show(qun,answer), typename); } else { statusstring= adns_strerror(st); r= fprintf(stderr,"Error during DNS %s lookup for %s: %s\n", typename, owner_show(qun,answer), statusstring); } } if (r == EOF) sysfail("write error message to stderr",errno); } void query_done(struct query_node *qun, adns_answer *answer) { adns_status st, ist; int rrn, nrrs; const char *rrp, *realowner, *typename; char *datastr; st= answer->status; nrrs= answer->nrrs; if (ov_format == fmt_asynch) { check_status(st); if (printf("%s %d ", qun->id, nrrs) == EOF) outerr(); print_status(st,qun,answer); } else { if (qun->pqfr.show_cname && answer->cname) { print_owner_ttl(qun,answer); if (qun->pqfr.show_type) print_withspace("CNAME"); if (printf("%s\n", answer->cname) == EOF) outerr(); } if (st) { check_status(st); print_dnsfail(st,qun,answer); } } if (qun->pqfr.show_owner) { realowner= answer->cname ? answer->cname : owner_show(qun,answer); assert(realowner); } else { realowner= 0; } if (nrrs) { for (rrn=0, rrp = answer->rrs.untyped; rrn < nrrs; rrn++, rrp += answer->rrsz) { if (realowner) print_withspace(realowner); print_ttl(qun,answer); ist= adns_rr_info(answer->type, &typename, 0, 0, rrp, &datastr); if (ist == adns_s_nomemory) sysfail("adns_rr_info failed",ENOMEM); assert(!ist); if (qun->pqfr.show_type) print_withspace(typename); if (printf("%s\n",datastr) == EOF) outerr(); free(datastr); } } if (fflush(stdout)) outerr(); free(answer); dequeue_query(qun); } void of_asynch_id(const struct optioninfo *oi, const char *arg, const char *arg2) { free(ov_id); ov_id= xstrsave(arg); } void of_cancel_id(const struct optioninfo *oi, const char *arg, const char *arg2) { struct query_node *qun; for (qun= outstanding.head; qun && strcmp(qun->id,arg); qun= qun->next); if (!qun) return; adns_cancel(qun->qu); dequeue_query(qun); }