1ae8c6e27Sflorian /* 2ae8c6e27Sflorian * validator/autotrust.c - RFC5011 trust anchor management for unbound. 3ae8c6e27Sflorian * 4ae8c6e27Sflorian * Copyright (c) 2009, NLnet Labs. All rights reserved. 5ae8c6e27Sflorian * 6ae8c6e27Sflorian * This software is open source. 7ae8c6e27Sflorian * 8ae8c6e27Sflorian * Redistribution and use in source and binary forms, with or without 9ae8c6e27Sflorian * modification, are permitted provided that the following conditions 10ae8c6e27Sflorian * are met: 11ae8c6e27Sflorian * 12ae8c6e27Sflorian * Redistributions of source code must retain the above copyright notice, 13ae8c6e27Sflorian * this list of conditions and the following disclaimer. 14ae8c6e27Sflorian * 15ae8c6e27Sflorian * Redistributions in binary form must reproduce the above copyright notice, 16ae8c6e27Sflorian * this list of conditions and the following disclaimer in the documentation 17ae8c6e27Sflorian * and/or other materials provided with the distribution. 18ae8c6e27Sflorian * 19ae8c6e27Sflorian * Neither the name of the NLNET LABS nor the names of its contributors may 20ae8c6e27Sflorian * be used to endorse or promote products derived from this software without 21ae8c6e27Sflorian * specific prior written permission. 22ae8c6e27Sflorian * 23ae8c6e27Sflorian * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 24ae8c6e27Sflorian * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 25ae8c6e27Sflorian * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 26ae8c6e27Sflorian * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 27ae8c6e27Sflorian * HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 28ae8c6e27Sflorian * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED 29ae8c6e27Sflorian * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR 30ae8c6e27Sflorian * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF 31ae8c6e27Sflorian * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING 32ae8c6e27Sflorian * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS 33ae8c6e27Sflorian * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 34ae8c6e27Sflorian */ 35ae8c6e27Sflorian 36ae8c6e27Sflorian /** 37ae8c6e27Sflorian * \file 38ae8c6e27Sflorian * 39ae8c6e27Sflorian * Contains autotrust implementation. The implementation was taken from 40ae8c6e27Sflorian * the autotrust daemon (BSD licensed), written by Matthijs Mekking. 41ae8c6e27Sflorian * It was modified to fit into unbound. The state table process is the same. 42ae8c6e27Sflorian */ 43ae8c6e27Sflorian #include "config.h" 44ae8c6e27Sflorian #include "validator/autotrust.h" 45ae8c6e27Sflorian #include "validator/val_anchor.h" 46ae8c6e27Sflorian #include "validator/val_utils.h" 47ae8c6e27Sflorian #include "validator/val_sigcrypt.h" 48ae8c6e27Sflorian #include "util/data/dname.h" 49ae8c6e27Sflorian #include "util/data/packed_rrset.h" 50ae8c6e27Sflorian #include "util/log.h" 51ae8c6e27Sflorian #include "util/module.h" 52ae8c6e27Sflorian #include "util/net_help.h" 53ae8c6e27Sflorian #include "util/config_file.h" 54ae8c6e27Sflorian #include "util/regional.h" 55ae8c6e27Sflorian #include "util/random.h" 56ae8c6e27Sflorian #include "util/data/msgparse.h" 57ae8c6e27Sflorian #include "services/mesh.h" 58ae8c6e27Sflorian #include "services/cache/rrset.h" 59ae8c6e27Sflorian #include "validator/val_kcache.h" 60ae8c6e27Sflorian #include "sldns/sbuffer.h" 61ae8c6e27Sflorian #include "sldns/wire2str.h" 62ae8c6e27Sflorian #include "sldns/str2wire.h" 63ae8c6e27Sflorian #include "sldns/keyraw.h" 64ae8c6e27Sflorian #include "sldns/rrdef.h" 65ae8c6e27Sflorian #include <stdarg.h> 66ae8c6e27Sflorian #include <ctype.h> 67ae8c6e27Sflorian 68ae8c6e27Sflorian /** number of times a key must be seen before it can become valid */ 69ae8c6e27Sflorian #define MIN_PENDINGCOUNT 2 70ae8c6e27Sflorian 71ae8c6e27Sflorian /** Event: Revoked */ 72ae8c6e27Sflorian static void do_revoked(struct module_env* env, struct autr_ta* anchor, int* c); 73ae8c6e27Sflorian 74ae8c6e27Sflorian struct autr_global_data* autr_global_create(void) 75ae8c6e27Sflorian { 76ae8c6e27Sflorian struct autr_global_data* global; 77ae8c6e27Sflorian global = (struct autr_global_data*)malloc(sizeof(*global)); 78ae8c6e27Sflorian if(!global) 79ae8c6e27Sflorian return NULL; 80ae8c6e27Sflorian rbtree_init(&global->probe, &probetree_cmp); 81ae8c6e27Sflorian return global; 82ae8c6e27Sflorian } 83ae8c6e27Sflorian 84ae8c6e27Sflorian void autr_global_delete(struct autr_global_data* global) 85ae8c6e27Sflorian { 86ae8c6e27Sflorian if(!global) 87ae8c6e27Sflorian return; 88ae8c6e27Sflorian /* elements deleted by parent */ 89ae8c6e27Sflorian free(global); 90ae8c6e27Sflorian } 91ae8c6e27Sflorian 92ae8c6e27Sflorian int probetree_cmp(const void* x, const void* y) 93ae8c6e27Sflorian { 94ae8c6e27Sflorian struct trust_anchor* a = (struct trust_anchor*)x; 95ae8c6e27Sflorian struct trust_anchor* b = (struct trust_anchor*)y; 96ae8c6e27Sflorian log_assert(a->autr && b->autr); 97ae8c6e27Sflorian if(a->autr->next_probe_time < b->autr->next_probe_time) 98ae8c6e27Sflorian return -1; 99ae8c6e27Sflorian if(a->autr->next_probe_time > b->autr->next_probe_time) 100ae8c6e27Sflorian return 1; 101ae8c6e27Sflorian /* time is equal, sort on trust point identity */ 102ae8c6e27Sflorian return anchor_cmp(x, y); 103ae8c6e27Sflorian } 104ae8c6e27Sflorian 105ae8c6e27Sflorian size_t 106ae8c6e27Sflorian autr_get_num_anchors(struct val_anchors* anchors) 107ae8c6e27Sflorian { 108ae8c6e27Sflorian size_t res = 0; 109ae8c6e27Sflorian if(!anchors) 110ae8c6e27Sflorian return 0; 111ae8c6e27Sflorian lock_basic_lock(&anchors->lock); 112ae8c6e27Sflorian if(anchors->autr) 113ae8c6e27Sflorian res = anchors->autr->probe.count; 114ae8c6e27Sflorian lock_basic_unlock(&anchors->lock); 115ae8c6e27Sflorian return res; 116ae8c6e27Sflorian } 117ae8c6e27Sflorian 118ae8c6e27Sflorian /** Position in string */ 119ae8c6e27Sflorian static int 120ae8c6e27Sflorian position_in_string(char *str, const char* sub) 121ae8c6e27Sflorian { 122ae8c6e27Sflorian char* pos = strstr(str, sub); 123ae8c6e27Sflorian if(pos) 124ae8c6e27Sflorian return (int)(pos-str)+(int)strlen(sub); 125ae8c6e27Sflorian return -1; 126ae8c6e27Sflorian } 127ae8c6e27Sflorian 128ae8c6e27Sflorian /** Debug routine to print pretty key information */ 129ae8c6e27Sflorian static void 130ae8c6e27Sflorian verbose_key(struct autr_ta* ta, enum verbosity_value level, 131ae8c6e27Sflorian const char* format, ...) ATTR_FORMAT(printf, 3, 4); 132ae8c6e27Sflorian 133ae8c6e27Sflorian /** 134ae8c6e27Sflorian * Implementation of debug pretty key print 135ae8c6e27Sflorian * @param ta: trust anchor key with DNSKEY data. 136ae8c6e27Sflorian * @param level: verbosity level to print at. 137ae8c6e27Sflorian * @param format: printf style format string. 138ae8c6e27Sflorian */ 139ae8c6e27Sflorian static void 140ae8c6e27Sflorian verbose_key(struct autr_ta* ta, enum verbosity_value level, 141ae8c6e27Sflorian const char* format, ...) 142ae8c6e27Sflorian { 143ae8c6e27Sflorian va_list args; 144ae8c6e27Sflorian va_start(args, format); 145ae8c6e27Sflorian if(verbosity >= level) { 146ae8c6e27Sflorian char* str = sldns_wire2str_dname(ta->rr, ta->dname_len); 147ae8c6e27Sflorian int keytag = (int)sldns_calc_keytag_raw(sldns_wirerr_get_rdata( 148ae8c6e27Sflorian ta->rr, ta->rr_len, ta->dname_len), 149ae8c6e27Sflorian sldns_wirerr_get_rdatalen(ta->rr, ta->rr_len, 150ae8c6e27Sflorian ta->dname_len)); 151ae8c6e27Sflorian char msg[MAXSYSLOGMSGLEN]; 152ae8c6e27Sflorian vsnprintf(msg, sizeof(msg), format, args); 153ae8c6e27Sflorian verbose(level, "%s key %d %s", str?str:"??", keytag, msg); 154ae8c6e27Sflorian free(str); 155ae8c6e27Sflorian } 156ae8c6e27Sflorian va_end(args); 157ae8c6e27Sflorian } 158ae8c6e27Sflorian 159ae8c6e27Sflorian /** 160ae8c6e27Sflorian * Parse comments 161ae8c6e27Sflorian * @param str: to parse 162ae8c6e27Sflorian * @param ta: trust key autotrust metadata 163ae8c6e27Sflorian * @return false on failure. 164ae8c6e27Sflorian */ 165ae8c6e27Sflorian static int 166ae8c6e27Sflorian parse_comments(char* str, struct autr_ta* ta) 167ae8c6e27Sflorian { 168ae8c6e27Sflorian int len = (int)strlen(str), pos = 0, timestamp = 0; 169ae8c6e27Sflorian char* comment = (char*) malloc(sizeof(char)*len+1); 170ae8c6e27Sflorian char* comments = comment; 171ae8c6e27Sflorian if(!comment) { 172ae8c6e27Sflorian log_err("malloc failure in parse"); 173ae8c6e27Sflorian return 0; 174ae8c6e27Sflorian } 175ae8c6e27Sflorian /* skip over whitespace and data at start of line */ 176ae8c6e27Sflorian while (*str != '\0' && *str != ';') 177ae8c6e27Sflorian str++; 178ae8c6e27Sflorian if (*str == ';') 179ae8c6e27Sflorian str++; 180ae8c6e27Sflorian /* copy comments */ 181ae8c6e27Sflorian while (*str != '\0') 182ae8c6e27Sflorian { 183ae8c6e27Sflorian *comments = *str; 184ae8c6e27Sflorian comments++; 185ae8c6e27Sflorian str++; 186ae8c6e27Sflorian } 187ae8c6e27Sflorian *comments = '\0'; 188ae8c6e27Sflorian 189ae8c6e27Sflorian comments = comment; 190ae8c6e27Sflorian 191ae8c6e27Sflorian /* read state */ 192ae8c6e27Sflorian pos = position_in_string(comments, "state="); 193ae8c6e27Sflorian if (pos >= (int) strlen(comments)) 194ae8c6e27Sflorian { 195ae8c6e27Sflorian log_err("parse error"); 196ae8c6e27Sflorian free(comment); 197ae8c6e27Sflorian return 0; 198ae8c6e27Sflorian } 199ae8c6e27Sflorian if (pos <= 0) 200ae8c6e27Sflorian ta->s = AUTR_STATE_VALID; 201ae8c6e27Sflorian else 202ae8c6e27Sflorian { 203ae8c6e27Sflorian int s = (int) comments[pos] - '0'; 204ae8c6e27Sflorian switch(s) 205ae8c6e27Sflorian { 206ae8c6e27Sflorian case AUTR_STATE_START: 207ae8c6e27Sflorian case AUTR_STATE_ADDPEND: 208ae8c6e27Sflorian case AUTR_STATE_VALID: 209ae8c6e27Sflorian case AUTR_STATE_MISSING: 210ae8c6e27Sflorian case AUTR_STATE_REVOKED: 211ae8c6e27Sflorian case AUTR_STATE_REMOVED: 212ae8c6e27Sflorian ta->s = s; 213ae8c6e27Sflorian break; 214ae8c6e27Sflorian default: 215ae8c6e27Sflorian verbose_key(ta, VERB_OPS, "has undefined " 216ae8c6e27Sflorian "state, considered NewKey"); 217ae8c6e27Sflorian ta->s = AUTR_STATE_START; 218ae8c6e27Sflorian break; 219ae8c6e27Sflorian } 220ae8c6e27Sflorian } 221ae8c6e27Sflorian /* read pending count */ 222ae8c6e27Sflorian pos = position_in_string(comments, "count="); 223ae8c6e27Sflorian if (pos >= (int) strlen(comments)) 224ae8c6e27Sflorian { 225ae8c6e27Sflorian log_err("parse error"); 226ae8c6e27Sflorian free(comment); 227ae8c6e27Sflorian return 0; 228ae8c6e27Sflorian } 229ae8c6e27Sflorian if (pos <= 0) 230ae8c6e27Sflorian ta->pending_count = 0; 231ae8c6e27Sflorian else 232ae8c6e27Sflorian { 233ae8c6e27Sflorian comments += pos; 234ae8c6e27Sflorian ta->pending_count = (uint8_t)atoi(comments); 235ae8c6e27Sflorian } 236ae8c6e27Sflorian 237ae8c6e27Sflorian /* read last change */ 238ae8c6e27Sflorian pos = position_in_string(comments, "lastchange="); 239ae8c6e27Sflorian if (pos >= (int) strlen(comments)) 240ae8c6e27Sflorian { 241ae8c6e27Sflorian log_err("parse error"); 242ae8c6e27Sflorian free(comment); 243ae8c6e27Sflorian return 0; 244ae8c6e27Sflorian } 245ae8c6e27Sflorian if (pos >= 0) 246ae8c6e27Sflorian { 247ae8c6e27Sflorian comments += pos; 248ae8c6e27Sflorian timestamp = atoi(comments); 249ae8c6e27Sflorian } 250ae8c6e27Sflorian if (pos < 0 || !timestamp) 251ae8c6e27Sflorian ta->last_change = 0; 252ae8c6e27Sflorian else 253ae8c6e27Sflorian ta->last_change = (time_t)timestamp; 254ae8c6e27Sflorian 255ae8c6e27Sflorian free(comment); 256ae8c6e27Sflorian return 1; 257ae8c6e27Sflorian } 258ae8c6e27Sflorian 259ae8c6e27Sflorian /** Check if a line contains data (besides comments) */ 260ae8c6e27Sflorian static int 261ae8c6e27Sflorian str_contains_data(char* str, char comment) 262ae8c6e27Sflorian { 263ae8c6e27Sflorian while (*str != '\0') { 264ae8c6e27Sflorian if (*str == comment || *str == '\n') 265ae8c6e27Sflorian return 0; 266ae8c6e27Sflorian if (*str != ' ' && *str != '\t') 267ae8c6e27Sflorian return 1; 268ae8c6e27Sflorian str++; 269ae8c6e27Sflorian } 270ae8c6e27Sflorian return 0; 271ae8c6e27Sflorian } 272ae8c6e27Sflorian 273ae8c6e27Sflorian /** Get DNSKEY flags 274ae8c6e27Sflorian * rdata without rdatalen in front of it. */ 275ae8c6e27Sflorian static int 276ae8c6e27Sflorian dnskey_flags(uint16_t t, uint8_t* rdata, size_t len) 277ae8c6e27Sflorian { 278ae8c6e27Sflorian uint16_t f; 279ae8c6e27Sflorian if(t != LDNS_RR_TYPE_DNSKEY) 280ae8c6e27Sflorian return 0; 281ae8c6e27Sflorian if(len < 2) 282ae8c6e27Sflorian return 0; 283ae8c6e27Sflorian memmove(&f, rdata, 2); 284ae8c6e27Sflorian f = ntohs(f); 285ae8c6e27Sflorian return (int)f; 286ae8c6e27Sflorian } 287ae8c6e27Sflorian 288ae8c6e27Sflorian /** Check if KSK DNSKEY. 289ae8c6e27Sflorian * pass rdata without rdatalen in front of it */ 290ae8c6e27Sflorian static int 291ae8c6e27Sflorian rr_is_dnskey_sep(uint16_t t, uint8_t* rdata, size_t len) 292ae8c6e27Sflorian { 293ae8c6e27Sflorian return (dnskey_flags(t, rdata, len)&DNSKEY_BIT_SEP); 294ae8c6e27Sflorian } 295ae8c6e27Sflorian 296ae8c6e27Sflorian /** Check if TA is KSK DNSKEY */ 297ae8c6e27Sflorian static int 298ae8c6e27Sflorian ta_is_dnskey_sep(struct autr_ta* ta) 299ae8c6e27Sflorian { 300ae8c6e27Sflorian return (dnskey_flags( 301ae8c6e27Sflorian sldns_wirerr_get_type(ta->rr, ta->rr_len, ta->dname_len), 302ae8c6e27Sflorian sldns_wirerr_get_rdata(ta->rr, ta->rr_len, ta->dname_len), 303ae8c6e27Sflorian sldns_wirerr_get_rdatalen(ta->rr, ta->rr_len, ta->dname_len) 304ae8c6e27Sflorian ) & DNSKEY_BIT_SEP); 305ae8c6e27Sflorian } 306ae8c6e27Sflorian 307ae8c6e27Sflorian /** Check if REVOKED DNSKEY 308ae8c6e27Sflorian * pass rdata without rdatalen in front of it */ 309ae8c6e27Sflorian static int 310ae8c6e27Sflorian rr_is_dnskey_revoked(uint16_t t, uint8_t* rdata, size_t len) 311ae8c6e27Sflorian { 312ae8c6e27Sflorian return (dnskey_flags(t, rdata, len)&LDNS_KEY_REVOKE_KEY); 313ae8c6e27Sflorian } 314ae8c6e27Sflorian 315ae8c6e27Sflorian /** create ta */ 316ae8c6e27Sflorian static struct autr_ta* 317ae8c6e27Sflorian autr_ta_create(uint8_t* rr, size_t rr_len, size_t dname_len) 318ae8c6e27Sflorian { 319ae8c6e27Sflorian struct autr_ta* ta = (struct autr_ta*)calloc(1, sizeof(*ta)); 320ae8c6e27Sflorian if(!ta) { 321ae8c6e27Sflorian free(rr); 322ae8c6e27Sflorian return NULL; 323ae8c6e27Sflorian } 324ae8c6e27Sflorian ta->rr = rr; 325ae8c6e27Sflorian ta->rr_len = rr_len; 326ae8c6e27Sflorian ta->dname_len = dname_len; 327ae8c6e27Sflorian return ta; 328ae8c6e27Sflorian } 329ae8c6e27Sflorian 330ae8c6e27Sflorian /** create tp */ 331ae8c6e27Sflorian static struct trust_anchor* 332ae8c6e27Sflorian autr_tp_create(struct val_anchors* anchors, uint8_t* own, size_t own_len, 333ae8c6e27Sflorian uint16_t dc) 334ae8c6e27Sflorian { 335ae8c6e27Sflorian struct trust_anchor* tp = (struct trust_anchor*)calloc(1, sizeof(*tp)); 336ae8c6e27Sflorian if(!tp) return NULL; 337ae8c6e27Sflorian tp->name = memdup(own, own_len); 338ae8c6e27Sflorian if(!tp->name) { 339ae8c6e27Sflorian free(tp); 340ae8c6e27Sflorian return NULL; 341ae8c6e27Sflorian } 342ae8c6e27Sflorian tp->namelen = own_len; 343ae8c6e27Sflorian tp->namelabs = dname_count_labels(tp->name); 344ae8c6e27Sflorian tp->node.key = tp; 345ae8c6e27Sflorian tp->dclass = dc; 346ae8c6e27Sflorian tp->autr = (struct autr_point_data*)calloc(1, sizeof(*tp->autr)); 347ae8c6e27Sflorian if(!tp->autr) { 348ae8c6e27Sflorian free(tp->name); 349ae8c6e27Sflorian free(tp); 350ae8c6e27Sflorian return NULL; 351ae8c6e27Sflorian } 352ae8c6e27Sflorian tp->autr->pnode.key = tp; 353ae8c6e27Sflorian 354ae8c6e27Sflorian lock_basic_lock(&anchors->lock); 355ae8c6e27Sflorian if(!rbtree_insert(anchors->tree, &tp->node)) { 35654cc57acSflorian char buf[LDNS_MAX_DOMAINLEN+1]; 357ae8c6e27Sflorian lock_basic_unlock(&anchors->lock); 35854cc57acSflorian dname_str(tp->name, buf); 35954cc57acSflorian log_err("trust anchor for '%s' presented twice", buf); 360ae8c6e27Sflorian free(tp->name); 361ae8c6e27Sflorian free(tp->autr); 362ae8c6e27Sflorian free(tp); 363ae8c6e27Sflorian return NULL; 364ae8c6e27Sflorian } 365ae8c6e27Sflorian if(!rbtree_insert(&anchors->autr->probe, &tp->autr->pnode)) { 36654cc57acSflorian char buf[LDNS_MAX_DOMAINLEN+1]; 367ae8c6e27Sflorian (void)rbtree_delete(anchors->tree, tp); 368ae8c6e27Sflorian lock_basic_unlock(&anchors->lock); 36954cc57acSflorian dname_str(tp->name, buf); 37054cc57acSflorian log_err("trust anchor for '%s' in probetree twice", buf); 371ae8c6e27Sflorian free(tp->name); 372ae8c6e27Sflorian free(tp->autr); 373ae8c6e27Sflorian free(tp); 374ae8c6e27Sflorian return NULL; 375ae8c6e27Sflorian } 376ae8c6e27Sflorian lock_basic_init(&tp->lock); 377ae8c6e27Sflorian lock_protect(&tp->lock, tp, sizeof(*tp)); 378ae8c6e27Sflorian lock_protect(&tp->lock, tp->autr, sizeof(*tp->autr)); 37957403691Sflorian lock_basic_unlock(&anchors->lock); 380ae8c6e27Sflorian return tp; 381ae8c6e27Sflorian } 382ae8c6e27Sflorian 383ae8c6e27Sflorian /** delete assembled rrsets */ 384ae8c6e27Sflorian static void 385ae8c6e27Sflorian autr_rrset_delete(struct ub_packed_rrset_key* r) 386ae8c6e27Sflorian { 387ae8c6e27Sflorian if(r) { 388ae8c6e27Sflorian free(r->rk.dname); 389ae8c6e27Sflorian free(r->entry.data); 390ae8c6e27Sflorian free(r); 391ae8c6e27Sflorian } 392ae8c6e27Sflorian } 393ae8c6e27Sflorian 394ae8c6e27Sflorian void autr_point_delete(struct trust_anchor* tp) 395ae8c6e27Sflorian { 396ae8c6e27Sflorian if(!tp) 397ae8c6e27Sflorian return; 398ae8c6e27Sflorian lock_unprotect(&tp->lock, tp); 399ae8c6e27Sflorian lock_unprotect(&tp->lock, tp->autr); 400ae8c6e27Sflorian lock_basic_destroy(&tp->lock); 401ae8c6e27Sflorian autr_rrset_delete(tp->ds_rrset); 402ae8c6e27Sflorian autr_rrset_delete(tp->dnskey_rrset); 403ae8c6e27Sflorian if(tp->autr) { 404ae8c6e27Sflorian struct autr_ta* p = tp->autr->keys, *np; 405ae8c6e27Sflorian while(p) { 406ae8c6e27Sflorian np = p->next; 407ae8c6e27Sflorian free(p->rr); 408ae8c6e27Sflorian free(p); 409ae8c6e27Sflorian p = np; 410ae8c6e27Sflorian } 411ae8c6e27Sflorian free(tp->autr->file); 412ae8c6e27Sflorian free(tp->autr); 413ae8c6e27Sflorian } 414ae8c6e27Sflorian free(tp->name); 415ae8c6e27Sflorian free(tp); 416ae8c6e27Sflorian } 417ae8c6e27Sflorian 418ae8c6e27Sflorian /** find or add a new trust point for autotrust */ 419ae8c6e27Sflorian static struct trust_anchor* 420ae8c6e27Sflorian find_add_tp(struct val_anchors* anchors, uint8_t* rr, size_t rr_len, 421ae8c6e27Sflorian size_t dname_len) 422ae8c6e27Sflorian { 423ae8c6e27Sflorian struct trust_anchor* tp; 424ae8c6e27Sflorian tp = anchor_find(anchors, rr, dname_count_labels(rr), dname_len, 425ae8c6e27Sflorian sldns_wirerr_get_class(rr, rr_len, dname_len)); 426ae8c6e27Sflorian if(tp) { 427ae8c6e27Sflorian if(!tp->autr) { 428ae8c6e27Sflorian log_err("anchor cannot be with and without autotrust"); 429ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 430ae8c6e27Sflorian return NULL; 431ae8c6e27Sflorian } 432ae8c6e27Sflorian return tp; 433ae8c6e27Sflorian } 434ae8c6e27Sflorian tp = autr_tp_create(anchors, rr, dname_len, sldns_wirerr_get_class(rr, 435ae8c6e27Sflorian rr_len, dname_len)); 436ae8c6e27Sflorian if(!tp) 437ae8c6e27Sflorian return NULL; 438ae8c6e27Sflorian lock_basic_lock(&tp->lock); 439ae8c6e27Sflorian return tp; 440ae8c6e27Sflorian } 441ae8c6e27Sflorian 442ae8c6e27Sflorian /** Add trust anchor from RR */ 443ae8c6e27Sflorian static struct autr_ta* 444ae8c6e27Sflorian add_trustanchor_frm_rr(struct val_anchors* anchors, uint8_t* rr, size_t rr_len, 445ae8c6e27Sflorian size_t dname_len, struct trust_anchor** tp) 446ae8c6e27Sflorian { 447ae8c6e27Sflorian struct autr_ta* ta = autr_ta_create(rr, rr_len, dname_len); 448ae8c6e27Sflorian if(!ta) 449ae8c6e27Sflorian return NULL; 450ae8c6e27Sflorian *tp = find_add_tp(anchors, rr, rr_len, dname_len); 451ae8c6e27Sflorian if(!*tp) { 452ae8c6e27Sflorian free(ta->rr); 453ae8c6e27Sflorian free(ta); 454ae8c6e27Sflorian return NULL; 455ae8c6e27Sflorian } 456ae8c6e27Sflorian /* add ta to tp */ 457ae8c6e27Sflorian ta->next = (*tp)->autr->keys; 458ae8c6e27Sflorian (*tp)->autr->keys = ta; 459ae8c6e27Sflorian lock_basic_unlock(&(*tp)->lock); 460ae8c6e27Sflorian return ta; 461ae8c6e27Sflorian } 462ae8c6e27Sflorian 463ae8c6e27Sflorian /** 464ae8c6e27Sflorian * Add new trust anchor from a string in file. 465ae8c6e27Sflorian * @param anchors: all anchors 466ae8c6e27Sflorian * @param str: string with anchor and comments, if any comments. 467ae8c6e27Sflorian * @param tp: trust point returned. 468ae8c6e27Sflorian * @param origin: what to use for @ 469ae8c6e27Sflorian * @param origin_len: length of origin 470ae8c6e27Sflorian * @param prev: previous rr name 471ae8c6e27Sflorian * @param prev_len: length of prev 472ae8c6e27Sflorian * @param skip: if true, the result is NULL, but not an error, skip it. 473ae8c6e27Sflorian * @return new key in trust point. 474ae8c6e27Sflorian */ 475ae8c6e27Sflorian static struct autr_ta* 476ae8c6e27Sflorian add_trustanchor_frm_str(struct val_anchors* anchors, char* str, 477ae8c6e27Sflorian struct trust_anchor** tp, uint8_t* origin, size_t origin_len, 478ae8c6e27Sflorian uint8_t** prev, size_t* prev_len, int* skip) 479ae8c6e27Sflorian { 480ae8c6e27Sflorian uint8_t rr[LDNS_RR_BUF_SIZE]; 481ae8c6e27Sflorian size_t rr_len = sizeof(rr), dname_len; 482ae8c6e27Sflorian uint8_t* drr; 483ae8c6e27Sflorian int lstatus; 484ae8c6e27Sflorian if (!str_contains_data(str, ';')) { 485ae8c6e27Sflorian *skip = 1; 486ae8c6e27Sflorian return NULL; /* empty line */ 487ae8c6e27Sflorian } 488ae8c6e27Sflorian if(0 != (lstatus = sldns_str2wire_rr_buf(str, rr, &rr_len, &dname_len, 489ae8c6e27Sflorian 0, origin, origin_len, *prev, *prev_len))) 490ae8c6e27Sflorian { 491ae8c6e27Sflorian log_err("ldns error while converting string to RR at%d: %s: %s", 492ae8c6e27Sflorian LDNS_WIREPARSE_OFFSET(lstatus), 493ae8c6e27Sflorian sldns_get_errorstr_parse(lstatus), str); 494ae8c6e27Sflorian return NULL; 495ae8c6e27Sflorian } 496ae8c6e27Sflorian free(*prev); 497ae8c6e27Sflorian *prev = memdup(rr, dname_len); 498ae8c6e27Sflorian *prev_len = dname_len; 499ae8c6e27Sflorian if(!*prev) { 500ae8c6e27Sflorian log_err("malloc failure in add_trustanchor"); 501ae8c6e27Sflorian return NULL; 502ae8c6e27Sflorian } 503ae8c6e27Sflorian if(sldns_wirerr_get_type(rr, rr_len, dname_len)!=LDNS_RR_TYPE_DNSKEY && 504ae8c6e27Sflorian sldns_wirerr_get_type(rr, rr_len, dname_len)!=LDNS_RR_TYPE_DS) { 505ae8c6e27Sflorian *skip = 1; 506ae8c6e27Sflorian return NULL; /* only DS and DNSKEY allowed */ 507ae8c6e27Sflorian } 508ae8c6e27Sflorian drr = memdup(rr, rr_len); 509ae8c6e27Sflorian if(!drr) { 510ae8c6e27Sflorian log_err("malloc failure in add trustanchor"); 511ae8c6e27Sflorian return NULL; 512ae8c6e27Sflorian } 513ae8c6e27Sflorian return add_trustanchor_frm_rr(anchors, drr, rr_len, dname_len, tp); 514ae8c6e27Sflorian } 515ae8c6e27Sflorian 516ae8c6e27Sflorian /** 517ae8c6e27Sflorian * Load single anchor 518ae8c6e27Sflorian * @param anchors: all points. 519ae8c6e27Sflorian * @param str: comments line 520ae8c6e27Sflorian * @param fname: filename 521ae8c6e27Sflorian * @param origin: the $ORIGIN. 522ae8c6e27Sflorian * @param origin_len: length of origin 523ae8c6e27Sflorian * @param prev: passed to ldns. 524ae8c6e27Sflorian * @param prev_len: length of prev 525ae8c6e27Sflorian * @param skip: if true, the result is NULL, but not an error, skip it. 526ae8c6e27Sflorian * @return false on failure, otherwise the tp read. 527ae8c6e27Sflorian */ 528ae8c6e27Sflorian static struct trust_anchor* 529ae8c6e27Sflorian load_trustanchor(struct val_anchors* anchors, char* str, const char* fname, 530ae8c6e27Sflorian uint8_t* origin, size_t origin_len, uint8_t** prev, size_t* prev_len, 531ae8c6e27Sflorian int* skip) 532ae8c6e27Sflorian { 533ae8c6e27Sflorian struct autr_ta* ta = NULL; 534ae8c6e27Sflorian struct trust_anchor* tp = NULL; 535ae8c6e27Sflorian 536ae8c6e27Sflorian ta = add_trustanchor_frm_str(anchors, str, &tp, origin, origin_len, 537ae8c6e27Sflorian prev, prev_len, skip); 538ae8c6e27Sflorian if(!ta) 539ae8c6e27Sflorian return NULL; 540ae8c6e27Sflorian lock_basic_lock(&tp->lock); 541ae8c6e27Sflorian if(!parse_comments(str, ta)) { 542ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 543ae8c6e27Sflorian return NULL; 544ae8c6e27Sflorian } 545ae8c6e27Sflorian if(!tp->autr->file) { 546ae8c6e27Sflorian tp->autr->file = strdup(fname); 547ae8c6e27Sflorian if(!tp->autr->file) { 548ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 549ae8c6e27Sflorian log_err("malloc failure"); 550ae8c6e27Sflorian return NULL; 551ae8c6e27Sflorian } 552ae8c6e27Sflorian } 553ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 554ae8c6e27Sflorian return tp; 555ae8c6e27Sflorian } 556ae8c6e27Sflorian 557ae8c6e27Sflorian /** iterator for DSes from keylist. return true if a next element exists */ 558ae8c6e27Sflorian static int 559ae8c6e27Sflorian assemble_iterate_ds(struct autr_ta** list, uint8_t** rr, size_t* rr_len, 560ae8c6e27Sflorian size_t* dname_len) 561ae8c6e27Sflorian { 562ae8c6e27Sflorian while(*list) { 563ae8c6e27Sflorian if(sldns_wirerr_get_type((*list)->rr, (*list)->rr_len, 564ae8c6e27Sflorian (*list)->dname_len) == LDNS_RR_TYPE_DS) { 565ae8c6e27Sflorian *rr = (*list)->rr; 566ae8c6e27Sflorian *rr_len = (*list)->rr_len; 567ae8c6e27Sflorian *dname_len = (*list)->dname_len; 568ae8c6e27Sflorian *list = (*list)->next; 569ae8c6e27Sflorian return 1; 570ae8c6e27Sflorian } 571ae8c6e27Sflorian *list = (*list)->next; 572ae8c6e27Sflorian } 573ae8c6e27Sflorian return 0; 574ae8c6e27Sflorian } 575ae8c6e27Sflorian 576ae8c6e27Sflorian /** iterator for DNSKEYs from keylist. return true if a next element exists */ 577ae8c6e27Sflorian static int 578ae8c6e27Sflorian assemble_iterate_dnskey(struct autr_ta** list, uint8_t** rr, size_t* rr_len, 579ae8c6e27Sflorian size_t* dname_len) 580ae8c6e27Sflorian { 581ae8c6e27Sflorian while(*list) { 582ae8c6e27Sflorian if(sldns_wirerr_get_type((*list)->rr, (*list)->rr_len, 583ae8c6e27Sflorian (*list)->dname_len) != LDNS_RR_TYPE_DS && 584ae8c6e27Sflorian ((*list)->s == AUTR_STATE_VALID || 585ae8c6e27Sflorian (*list)->s == AUTR_STATE_MISSING)) { 586ae8c6e27Sflorian *rr = (*list)->rr; 587ae8c6e27Sflorian *rr_len = (*list)->rr_len; 588ae8c6e27Sflorian *dname_len = (*list)->dname_len; 589ae8c6e27Sflorian *list = (*list)->next; 590ae8c6e27Sflorian return 1; 591ae8c6e27Sflorian } 592ae8c6e27Sflorian *list = (*list)->next; 593ae8c6e27Sflorian } 594ae8c6e27Sflorian return 0; 595ae8c6e27Sflorian } 596ae8c6e27Sflorian 597ae8c6e27Sflorian /** see if iterator-list has any elements in it, or it is empty */ 598ae8c6e27Sflorian static int 599ae8c6e27Sflorian assemble_iterate_hasfirst(int iter(struct autr_ta**, uint8_t**, size_t*, 600ae8c6e27Sflorian size_t*), struct autr_ta* list) 601ae8c6e27Sflorian { 602ae8c6e27Sflorian uint8_t* rr = NULL; 603ae8c6e27Sflorian size_t rr_len = 0, dname_len = 0; 604ae8c6e27Sflorian return iter(&list, &rr, &rr_len, &dname_len); 605ae8c6e27Sflorian } 606ae8c6e27Sflorian 607ae8c6e27Sflorian /** number of elements in iterator list */ 608ae8c6e27Sflorian static size_t 609ae8c6e27Sflorian assemble_iterate_count(int iter(struct autr_ta**, uint8_t**, size_t*, 610ae8c6e27Sflorian size_t*), struct autr_ta* list) 611ae8c6e27Sflorian { 612ae8c6e27Sflorian uint8_t* rr = NULL; 613ae8c6e27Sflorian size_t i = 0, rr_len = 0, dname_len = 0; 614ae8c6e27Sflorian while(iter(&list, &rr, &rr_len, &dname_len)) { 615ae8c6e27Sflorian i++; 616ae8c6e27Sflorian } 617ae8c6e27Sflorian return i; 618ae8c6e27Sflorian } 619ae8c6e27Sflorian 620ae8c6e27Sflorian /** 621ae8c6e27Sflorian * Create a ub_packed_rrset_key allocated on the heap. 622ae8c6e27Sflorian * It therefore does not have the correct ID value, and cannot be used 623ae8c6e27Sflorian * inside the cache. It can be used in storage outside of the cache. 624ae8c6e27Sflorian * Keys for the cache have to be obtained from alloc.h . 625ae8c6e27Sflorian * @param iter: iterator over the elements in the list. It filters elements. 626ae8c6e27Sflorian * @param list: the list. 627ae8c6e27Sflorian * @return key allocated or NULL on failure. 628ae8c6e27Sflorian */ 629ae8c6e27Sflorian static struct ub_packed_rrset_key* 630ae8c6e27Sflorian ub_packed_rrset_heap_key(int iter(struct autr_ta**, uint8_t**, size_t*, 631ae8c6e27Sflorian size_t*), struct autr_ta* list) 632ae8c6e27Sflorian { 633ae8c6e27Sflorian uint8_t* rr = NULL; 634ae8c6e27Sflorian size_t rr_len = 0, dname_len = 0; 635ae8c6e27Sflorian struct ub_packed_rrset_key* k; 636ae8c6e27Sflorian if(!iter(&list, &rr, &rr_len, &dname_len)) 637ae8c6e27Sflorian return NULL; 638ae8c6e27Sflorian k = (struct ub_packed_rrset_key*)calloc(1, sizeof(*k)); 639ae8c6e27Sflorian if(!k) 640ae8c6e27Sflorian return NULL; 641ae8c6e27Sflorian k->rk.type = htons(sldns_wirerr_get_type(rr, rr_len, dname_len)); 642ae8c6e27Sflorian k->rk.rrset_class = htons(sldns_wirerr_get_class(rr, rr_len, dname_len)); 643ae8c6e27Sflorian k->rk.dname_len = dname_len; 644ae8c6e27Sflorian k->rk.dname = memdup(rr, dname_len); 645ae8c6e27Sflorian if(!k->rk.dname) { 646ae8c6e27Sflorian free(k); 647ae8c6e27Sflorian return NULL; 648ae8c6e27Sflorian } 649ae8c6e27Sflorian return k; 650ae8c6e27Sflorian } 651ae8c6e27Sflorian 652ae8c6e27Sflorian /** 653ae8c6e27Sflorian * Create packed_rrset data on the heap. 654ae8c6e27Sflorian * @param iter: iterator over the elements in the list. It filters elements. 655ae8c6e27Sflorian * @param list: the list. 656ae8c6e27Sflorian * @return data allocated or NULL on failure. 657ae8c6e27Sflorian */ 658ae8c6e27Sflorian static struct packed_rrset_data* 659ae8c6e27Sflorian packed_rrset_heap_data(int iter(struct autr_ta**, uint8_t**, size_t*, 660ae8c6e27Sflorian size_t*), struct autr_ta* list) 661ae8c6e27Sflorian { 662ae8c6e27Sflorian uint8_t* rr = NULL; 663ae8c6e27Sflorian size_t rr_len = 0, dname_len = 0; 664ae8c6e27Sflorian struct packed_rrset_data* data; 665ae8c6e27Sflorian size_t count=0, rrsig_count=0, len=0, i, total; 666ae8c6e27Sflorian uint8_t* nextrdata; 667ae8c6e27Sflorian struct autr_ta* list_i; 668ae8c6e27Sflorian time_t ttl = 0; 669ae8c6e27Sflorian 670ae8c6e27Sflorian list_i = list; 671ae8c6e27Sflorian while(iter(&list_i, &rr, &rr_len, &dname_len)) { 672ae8c6e27Sflorian if(sldns_wirerr_get_type(rr, rr_len, dname_len) == 673ae8c6e27Sflorian LDNS_RR_TYPE_RRSIG) 674ae8c6e27Sflorian rrsig_count++; 675ae8c6e27Sflorian else count++; 676ae8c6e27Sflorian /* sizeof the rdlength + rdatalen */ 677ae8c6e27Sflorian len += 2 + sldns_wirerr_get_rdatalen(rr, rr_len, dname_len); 678ae8c6e27Sflorian ttl = (time_t)sldns_wirerr_get_ttl(rr, rr_len, dname_len); 679ae8c6e27Sflorian } 680ae8c6e27Sflorian if(count == 0 && rrsig_count == 0) 681ae8c6e27Sflorian return NULL; 682ae8c6e27Sflorian 683ae8c6e27Sflorian /* allocate */ 684ae8c6e27Sflorian total = count + rrsig_count; 685ae8c6e27Sflorian len += sizeof(*data) + total*(sizeof(size_t) + sizeof(time_t) + 686ae8c6e27Sflorian sizeof(uint8_t*)); 687ae8c6e27Sflorian data = (struct packed_rrset_data*)calloc(1, len); 688ae8c6e27Sflorian if(!data) 689ae8c6e27Sflorian return NULL; 690ae8c6e27Sflorian 691ae8c6e27Sflorian /* fill it */ 692ae8c6e27Sflorian data->ttl = ttl; 693ae8c6e27Sflorian data->count = count; 694ae8c6e27Sflorian data->rrsig_count = rrsig_count; 695ae8c6e27Sflorian data->rr_len = (size_t*)((uint8_t*)data + 696ae8c6e27Sflorian sizeof(struct packed_rrset_data)); 697ae8c6e27Sflorian data->rr_data = (uint8_t**)&(data->rr_len[total]); 698ae8c6e27Sflorian data->rr_ttl = (time_t*)&(data->rr_data[total]); 699ae8c6e27Sflorian nextrdata = (uint8_t*)&(data->rr_ttl[total]); 700ae8c6e27Sflorian 701ae8c6e27Sflorian /* fill out len, ttl, fields */ 702ae8c6e27Sflorian list_i = list; 703ae8c6e27Sflorian i = 0; 704ae8c6e27Sflorian while(iter(&list_i, &rr, &rr_len, &dname_len)) { 705ae8c6e27Sflorian data->rr_ttl[i] = (time_t)sldns_wirerr_get_ttl(rr, rr_len, 706ae8c6e27Sflorian dname_len); 707ae8c6e27Sflorian if(data->rr_ttl[i] < data->ttl) 708ae8c6e27Sflorian data->ttl = data->rr_ttl[i]; 709ae8c6e27Sflorian data->rr_len[i] = 2 /* the rdlength */ + 710ae8c6e27Sflorian sldns_wirerr_get_rdatalen(rr, rr_len, dname_len); 711ae8c6e27Sflorian i++; 712ae8c6e27Sflorian } 713ae8c6e27Sflorian 714ae8c6e27Sflorian /* fixup rest of ptrs */ 715ae8c6e27Sflorian for(i=0; i<total; i++) { 716ae8c6e27Sflorian data->rr_data[i] = nextrdata; 717ae8c6e27Sflorian nextrdata += data->rr_len[i]; 718ae8c6e27Sflorian } 719ae8c6e27Sflorian 720ae8c6e27Sflorian /* copy data in there */ 721ae8c6e27Sflorian list_i = list; 722ae8c6e27Sflorian i = 0; 723ae8c6e27Sflorian while(iter(&list_i, &rr, &rr_len, &dname_len)) { 724ae8c6e27Sflorian log_assert(data->rr_data[i]); 725ae8c6e27Sflorian memmove(data->rr_data[i], 726ae8c6e27Sflorian sldns_wirerr_get_rdatawl(rr, rr_len, dname_len), 727ae8c6e27Sflorian data->rr_len[i]); 728ae8c6e27Sflorian i++; 729ae8c6e27Sflorian } 730ae8c6e27Sflorian 731ae8c6e27Sflorian if(data->rrsig_count && data->count == 0) { 732ae8c6e27Sflorian data->count = data->rrsig_count; /* rrset type is RRSIG */ 733ae8c6e27Sflorian data->rrsig_count = 0; 734ae8c6e27Sflorian } 735ae8c6e27Sflorian return data; 736ae8c6e27Sflorian } 737ae8c6e27Sflorian 738ae8c6e27Sflorian /** 739ae8c6e27Sflorian * Assemble the trust anchors into DS and DNSKEY packed rrsets. 740ae8c6e27Sflorian * Uses only VALID and MISSING DNSKEYs. 741ae8c6e27Sflorian * Read the sldns_rrs and builds packed rrsets 742ae8c6e27Sflorian * @param tp: the trust point. Must be locked. 743ae8c6e27Sflorian * @return false on malloc failure. 744ae8c6e27Sflorian */ 745ae8c6e27Sflorian static int 746ae8c6e27Sflorian autr_assemble(struct trust_anchor* tp) 747ae8c6e27Sflorian { 748ae8c6e27Sflorian struct ub_packed_rrset_key* ubds=NULL, *ubdnskey=NULL; 749ae8c6e27Sflorian 750ae8c6e27Sflorian /* make packed rrset keys - malloced with no ID number, they 751ae8c6e27Sflorian * are not in the cache */ 752ae8c6e27Sflorian /* make packed rrset data (if there is a key) */ 753ae8c6e27Sflorian if(assemble_iterate_hasfirst(assemble_iterate_ds, tp->autr->keys)) { 754ae8c6e27Sflorian ubds = ub_packed_rrset_heap_key( 755ae8c6e27Sflorian assemble_iterate_ds, tp->autr->keys); 756ae8c6e27Sflorian if(!ubds) 757ae8c6e27Sflorian goto error_cleanup; 758ae8c6e27Sflorian ubds->entry.data = packed_rrset_heap_data( 759ae8c6e27Sflorian assemble_iterate_ds, tp->autr->keys); 760ae8c6e27Sflorian if(!ubds->entry.data) 761ae8c6e27Sflorian goto error_cleanup; 762ae8c6e27Sflorian } 763ae8c6e27Sflorian 764ae8c6e27Sflorian /* make packed DNSKEY data */ 765ae8c6e27Sflorian if(assemble_iterate_hasfirst(assemble_iterate_dnskey, tp->autr->keys)) { 766ae8c6e27Sflorian ubdnskey = ub_packed_rrset_heap_key( 767ae8c6e27Sflorian assemble_iterate_dnskey, tp->autr->keys); 768ae8c6e27Sflorian if(!ubdnskey) 769ae8c6e27Sflorian goto error_cleanup; 770ae8c6e27Sflorian ubdnskey->entry.data = packed_rrset_heap_data( 771ae8c6e27Sflorian assemble_iterate_dnskey, tp->autr->keys); 772ae8c6e27Sflorian if(!ubdnskey->entry.data) { 773ae8c6e27Sflorian error_cleanup: 774ae8c6e27Sflorian autr_rrset_delete(ubds); 775ae8c6e27Sflorian autr_rrset_delete(ubdnskey); 776ae8c6e27Sflorian return 0; 777ae8c6e27Sflorian } 778ae8c6e27Sflorian } 779ae8c6e27Sflorian 780ae8c6e27Sflorian /* we have prepared the new keys so nothing can go wrong any more. 781ae8c6e27Sflorian * And we are sure we cannot be left without trustanchor after 782ae8c6e27Sflorian * any errors. Put in the new keys and remove old ones. */ 783ae8c6e27Sflorian 784ae8c6e27Sflorian /* free the old data */ 785ae8c6e27Sflorian autr_rrset_delete(tp->ds_rrset); 786ae8c6e27Sflorian autr_rrset_delete(tp->dnskey_rrset); 787ae8c6e27Sflorian 788ae8c6e27Sflorian /* assign the data to replace the old */ 789ae8c6e27Sflorian tp->ds_rrset = ubds; 790ae8c6e27Sflorian tp->dnskey_rrset = ubdnskey; 791ae8c6e27Sflorian tp->numDS = assemble_iterate_count(assemble_iterate_ds, 792ae8c6e27Sflorian tp->autr->keys); 793ae8c6e27Sflorian tp->numDNSKEY = assemble_iterate_count(assemble_iterate_dnskey, 794ae8c6e27Sflorian tp->autr->keys); 795ae8c6e27Sflorian return 1; 796ae8c6e27Sflorian } 797ae8c6e27Sflorian 798ae8c6e27Sflorian /** parse integer */ 799ae8c6e27Sflorian static unsigned int 800ae8c6e27Sflorian parse_int(char* line, int* ret) 801ae8c6e27Sflorian { 802ae8c6e27Sflorian char *e; 803ae8c6e27Sflorian unsigned int x = (unsigned int)strtol(line, &e, 10); 804ae8c6e27Sflorian if(line == e) { 805ae8c6e27Sflorian *ret = -1; /* parse error */ 806ae8c6e27Sflorian return 0; 807ae8c6e27Sflorian } 808ae8c6e27Sflorian *ret = 1; /* matched */ 809ae8c6e27Sflorian return x; 810ae8c6e27Sflorian } 811ae8c6e27Sflorian 812ae8c6e27Sflorian /** parse id sequence for anchor */ 813ae8c6e27Sflorian static struct trust_anchor* 814ae8c6e27Sflorian parse_id(struct val_anchors* anchors, char* line) 815ae8c6e27Sflorian { 816ae8c6e27Sflorian struct trust_anchor *tp; 817ae8c6e27Sflorian int r; 818ae8c6e27Sflorian uint16_t dclass; 819ae8c6e27Sflorian uint8_t* dname; 820ae8c6e27Sflorian size_t dname_len; 821ae8c6e27Sflorian /* read the owner name */ 822ae8c6e27Sflorian char* next = strchr(line, ' '); 823ae8c6e27Sflorian if(!next) 824ae8c6e27Sflorian return NULL; 825ae8c6e27Sflorian next[0] = 0; 826ae8c6e27Sflorian dname = sldns_str2wire_dname(line, &dname_len); 827ae8c6e27Sflorian if(!dname) 828ae8c6e27Sflorian return NULL; 829ae8c6e27Sflorian 830ae8c6e27Sflorian /* read the class */ 831ae8c6e27Sflorian dclass = parse_int(next+1, &r); 832ae8c6e27Sflorian if(r == -1) { 833ae8c6e27Sflorian free(dname); 834ae8c6e27Sflorian return NULL; 835ae8c6e27Sflorian } 836ae8c6e27Sflorian 837ae8c6e27Sflorian /* find the trust point */ 838ae8c6e27Sflorian tp = autr_tp_create(anchors, dname, dname_len, dclass); 839ae8c6e27Sflorian free(dname); 840ae8c6e27Sflorian return tp; 841ae8c6e27Sflorian } 842ae8c6e27Sflorian 843ae8c6e27Sflorian /** 844ae8c6e27Sflorian * Parse variable from trustanchor header 845ae8c6e27Sflorian * @param line: to parse 846ae8c6e27Sflorian * @param anchors: the anchor is added to this, if "id:" is seen. 847ae8c6e27Sflorian * @param anchor: the anchor as result value or previously returned anchor 848ae8c6e27Sflorian * value to read the variable lines into. 849ae8c6e27Sflorian * @return: 0 no match, -1 failed syntax error, +1 success line read. 850ae8c6e27Sflorian * +2 revoked trust anchor file. 851ae8c6e27Sflorian */ 852ae8c6e27Sflorian static int 853ae8c6e27Sflorian parse_var_line(char* line, struct val_anchors* anchors, 854ae8c6e27Sflorian struct trust_anchor** anchor) 855ae8c6e27Sflorian { 856ae8c6e27Sflorian struct trust_anchor* tp = *anchor; 857ae8c6e27Sflorian int r = 0; 858ae8c6e27Sflorian if(strncmp(line, ";;id: ", 6) == 0) { 859ae8c6e27Sflorian *anchor = parse_id(anchors, line+6); 860ae8c6e27Sflorian if(!*anchor) return -1; 861ae8c6e27Sflorian else return 1; 862ae8c6e27Sflorian } else if(strncmp(line, ";;REVOKED", 9) == 0) { 863ae8c6e27Sflorian if(tp) { 864ae8c6e27Sflorian log_err("REVOKED statement must be at start of file"); 865ae8c6e27Sflorian return -1; 866ae8c6e27Sflorian } 867ae8c6e27Sflorian return 2; 868ae8c6e27Sflorian } else if(strncmp(line, ";;last_queried: ", 16) == 0) { 869ae8c6e27Sflorian if(!tp) return -1; 870ae8c6e27Sflorian lock_basic_lock(&tp->lock); 871ae8c6e27Sflorian tp->autr->last_queried = (time_t)parse_int(line+16, &r); 872ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 873ae8c6e27Sflorian } else if(strncmp(line, ";;last_success: ", 16) == 0) { 874ae8c6e27Sflorian if(!tp) return -1; 875ae8c6e27Sflorian lock_basic_lock(&tp->lock); 876ae8c6e27Sflorian tp->autr->last_success = (time_t)parse_int(line+16, &r); 877ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 878ae8c6e27Sflorian } else if(strncmp(line, ";;next_probe_time: ", 19) == 0) { 879ae8c6e27Sflorian if(!tp) return -1; 880ae8c6e27Sflorian lock_basic_lock(&anchors->lock); 881ae8c6e27Sflorian lock_basic_lock(&tp->lock); 882ae8c6e27Sflorian (void)rbtree_delete(&anchors->autr->probe, tp); 883ae8c6e27Sflorian tp->autr->next_probe_time = (time_t)parse_int(line+19, &r); 884ae8c6e27Sflorian (void)rbtree_insert(&anchors->autr->probe, &tp->autr->pnode); 885ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 886ae8c6e27Sflorian lock_basic_unlock(&anchors->lock); 887ae8c6e27Sflorian } else if(strncmp(line, ";;query_failed: ", 16) == 0) { 888ae8c6e27Sflorian if(!tp) return -1; 889ae8c6e27Sflorian lock_basic_lock(&tp->lock); 890ae8c6e27Sflorian tp->autr->query_failed = (uint8_t)parse_int(line+16, &r); 891ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 892ae8c6e27Sflorian } else if(strncmp(line, ";;query_interval: ", 18) == 0) { 893ae8c6e27Sflorian if(!tp) return -1; 894ae8c6e27Sflorian lock_basic_lock(&tp->lock); 895ae8c6e27Sflorian tp->autr->query_interval = (time_t)parse_int(line+18, &r); 896ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 897ae8c6e27Sflorian } else if(strncmp(line, ";;retry_time: ", 14) == 0) { 898ae8c6e27Sflorian if(!tp) return -1; 899ae8c6e27Sflorian lock_basic_lock(&tp->lock); 900ae8c6e27Sflorian tp->autr->retry_time = (time_t)parse_int(line+14, &r); 901ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 902ae8c6e27Sflorian } 903ae8c6e27Sflorian return r; 904ae8c6e27Sflorian } 905ae8c6e27Sflorian 906ae8c6e27Sflorian /** handle origin lines */ 907ae8c6e27Sflorian static int 908ae8c6e27Sflorian handle_origin(char* line, uint8_t** origin, size_t* origin_len) 909ae8c6e27Sflorian { 910ae8c6e27Sflorian size_t len = 0; 911ae8c6e27Sflorian while(isspace((unsigned char)*line)) 912ae8c6e27Sflorian line++; 913ae8c6e27Sflorian if(strncmp(line, "$ORIGIN", 7) != 0) 914ae8c6e27Sflorian return 0; 915ae8c6e27Sflorian free(*origin); 916ae8c6e27Sflorian line += 7; 917ae8c6e27Sflorian while(isspace((unsigned char)*line)) 918ae8c6e27Sflorian line++; 919ae8c6e27Sflorian *origin = sldns_str2wire_dname(line, &len); 920ae8c6e27Sflorian *origin_len = len; 921ae8c6e27Sflorian if(!*origin) 922ae8c6e27Sflorian log_warn("malloc failure or parse error in $ORIGIN"); 923ae8c6e27Sflorian return 1; 924ae8c6e27Sflorian } 925ae8c6e27Sflorian 926ae8c6e27Sflorian /** Read one line and put multiline RRs onto one line string */ 927ae8c6e27Sflorian static int 928ae8c6e27Sflorian read_multiline(char* buf, size_t len, FILE* in, int* linenr) 929ae8c6e27Sflorian { 930ae8c6e27Sflorian char* pos = buf; 931ae8c6e27Sflorian size_t left = len; 932ae8c6e27Sflorian int depth = 0; 933ae8c6e27Sflorian buf[len-1] = 0; 934ae8c6e27Sflorian while(left > 0 && fgets(pos, (int)left, in) != NULL) { 935ae8c6e27Sflorian size_t i, poslen = strlen(pos); 936ae8c6e27Sflorian (*linenr)++; 937ae8c6e27Sflorian 938ae8c6e27Sflorian /* check what the new depth is after the line */ 939ae8c6e27Sflorian /* this routine cannot handle braces inside quotes, 940ae8c6e27Sflorian say for TXT records, but this routine only has to read keys */ 941ae8c6e27Sflorian for(i=0; i<poslen; i++) { 942ae8c6e27Sflorian if(pos[i] == '(') { 943ae8c6e27Sflorian depth++; 944ae8c6e27Sflorian } else if(pos[i] == ')') { 945ae8c6e27Sflorian if(depth == 0) { 946ae8c6e27Sflorian log_err("mismatch: too many ')'"); 947ae8c6e27Sflorian return -1; 948ae8c6e27Sflorian } 949ae8c6e27Sflorian depth--; 950ae8c6e27Sflorian } else if(pos[i] == ';') { 951ae8c6e27Sflorian break; 952ae8c6e27Sflorian } 953ae8c6e27Sflorian } 954ae8c6e27Sflorian 955ae8c6e27Sflorian /* normal oneline or last line: keeps newline and comments */ 956ae8c6e27Sflorian if(depth == 0) { 957ae8c6e27Sflorian return 1; 958ae8c6e27Sflorian } 959ae8c6e27Sflorian 960ae8c6e27Sflorian /* more lines expected, snip off comments and newline */ 961ae8c6e27Sflorian if(poslen>0) 962ae8c6e27Sflorian pos[poslen-1] = 0; /* strip newline */ 963ae8c6e27Sflorian if(strchr(pos, ';')) 964ae8c6e27Sflorian strchr(pos, ';')[0] = 0; /* strip comments */ 965ae8c6e27Sflorian 966ae8c6e27Sflorian /* move to paste other lines behind this one */ 967ae8c6e27Sflorian poslen = strlen(pos); 968ae8c6e27Sflorian pos += poslen; 969ae8c6e27Sflorian left -= poslen; 970ae8c6e27Sflorian /* the newline is changed into a space */ 971ae8c6e27Sflorian if(left <= 2 /* space and eos */) { 972ae8c6e27Sflorian log_err("line too long"); 973ae8c6e27Sflorian return -1; 974ae8c6e27Sflorian } 975ae8c6e27Sflorian pos[0] = ' '; 976ae8c6e27Sflorian pos[1] = 0; 977ae8c6e27Sflorian pos += 1; 978ae8c6e27Sflorian left -= 1; 979ae8c6e27Sflorian } 980ae8c6e27Sflorian if(depth != 0) { 981ae8c6e27Sflorian log_err("mismatch: too many '('"); 982ae8c6e27Sflorian return -1; 983ae8c6e27Sflorian } 984ae8c6e27Sflorian if(pos != buf) 985ae8c6e27Sflorian return 1; 986ae8c6e27Sflorian return 0; 987ae8c6e27Sflorian } 988ae8c6e27Sflorian 989ae8c6e27Sflorian int autr_read_file(struct val_anchors* anchors, const char* nm) 990ae8c6e27Sflorian { 991ae8c6e27Sflorian /* the file descriptor */ 992ae8c6e27Sflorian FILE* fd; 993ae8c6e27Sflorian /* keep track of line numbers */ 994ae8c6e27Sflorian int line_nr = 0; 995ae8c6e27Sflorian /* single line */ 996ae8c6e27Sflorian char line[10240]; 997ae8c6e27Sflorian /* trust point being read */ 998ae8c6e27Sflorian struct trust_anchor *tp = NULL, *tp2; 999ae8c6e27Sflorian int r; 1000ae8c6e27Sflorian /* for $ORIGIN parsing */ 1001ae8c6e27Sflorian uint8_t *origin=NULL, *prev=NULL; 1002ae8c6e27Sflorian size_t origin_len=0, prev_len=0; 1003ae8c6e27Sflorian 1004ae8c6e27Sflorian if (!(fd = fopen(nm, "r"))) { 1005ae8c6e27Sflorian log_err("unable to open %s for reading: %s", 1006ae8c6e27Sflorian nm, strerror(errno)); 1007ae8c6e27Sflorian return 0; 1008ae8c6e27Sflorian } 1009ae8c6e27Sflorian verbose(VERB_ALGO, "reading autotrust anchor file %s", nm); 1010ae8c6e27Sflorian while ( (r=read_multiline(line, sizeof(line), fd, &line_nr)) != 0) { 1011ae8c6e27Sflorian if(r == -1 || (r = parse_var_line(line, anchors, &tp)) == -1) { 1012ae8c6e27Sflorian log_err("could not parse auto-trust-anchor-file " 1013ae8c6e27Sflorian "%s line %d", nm, line_nr); 1014ae8c6e27Sflorian fclose(fd); 1015ae8c6e27Sflorian free(origin); 1016ae8c6e27Sflorian free(prev); 1017ae8c6e27Sflorian return 0; 1018ae8c6e27Sflorian } else if(r == 1) { 1019ae8c6e27Sflorian continue; 1020ae8c6e27Sflorian } else if(r == 2) { 1021ae8c6e27Sflorian log_warn("trust anchor %s has been revoked", nm); 1022ae8c6e27Sflorian fclose(fd); 1023ae8c6e27Sflorian free(origin); 1024ae8c6e27Sflorian free(prev); 1025ae8c6e27Sflorian return 1; 1026ae8c6e27Sflorian } 1027ae8c6e27Sflorian if (!str_contains_data(line, ';')) 1028ae8c6e27Sflorian continue; /* empty lines allowed */ 1029ae8c6e27Sflorian if(handle_origin(line, &origin, &origin_len)) 1030ae8c6e27Sflorian continue; 1031ae8c6e27Sflorian r = 0; 1032ae8c6e27Sflorian if(!(tp2=load_trustanchor(anchors, line, nm, origin, 1033ae8c6e27Sflorian origin_len, &prev, &prev_len, &r))) { 1034ae8c6e27Sflorian if(!r) log_err("failed to load trust anchor from %s " 1035ae8c6e27Sflorian "at line %i, skipping", nm, line_nr); 1036ae8c6e27Sflorian /* try to do the rest */ 1037ae8c6e27Sflorian continue; 1038ae8c6e27Sflorian } 1039ae8c6e27Sflorian if(tp && tp != tp2) { 1040ae8c6e27Sflorian log_err("file %s has mismatching data inside: " 1041ae8c6e27Sflorian "the file may only contain keys for one name, " 1042ae8c6e27Sflorian "remove keys for other domain names", nm); 1043ae8c6e27Sflorian fclose(fd); 1044ae8c6e27Sflorian free(origin); 1045ae8c6e27Sflorian free(prev); 1046ae8c6e27Sflorian return 0; 1047ae8c6e27Sflorian } 1048ae8c6e27Sflorian tp = tp2; 1049ae8c6e27Sflorian } 1050ae8c6e27Sflorian fclose(fd); 1051ae8c6e27Sflorian free(origin); 1052ae8c6e27Sflorian free(prev); 1053ae8c6e27Sflorian if(!tp) { 1054ae8c6e27Sflorian log_err("failed to read %s", nm); 1055ae8c6e27Sflorian return 0; 1056ae8c6e27Sflorian } 1057ae8c6e27Sflorian 1058ae8c6e27Sflorian /* now assemble the data into DNSKEY and DS packed rrsets */ 1059ae8c6e27Sflorian lock_basic_lock(&tp->lock); 1060ae8c6e27Sflorian if(!autr_assemble(tp)) { 1061ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 1062ae8c6e27Sflorian log_err("malloc failure assembling %s", nm); 1063ae8c6e27Sflorian return 0; 1064ae8c6e27Sflorian } 1065ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 1066ae8c6e27Sflorian return 1; 1067ae8c6e27Sflorian } 1068ae8c6e27Sflorian 1069ae8c6e27Sflorian /** string for a trustanchor state */ 1070ae8c6e27Sflorian static const char* 1071ae8c6e27Sflorian trustanchor_state2str(autr_state_type s) 1072ae8c6e27Sflorian { 1073ae8c6e27Sflorian switch (s) { 1074ae8c6e27Sflorian case AUTR_STATE_START: return " START "; 1075ae8c6e27Sflorian case AUTR_STATE_ADDPEND: return " ADDPEND "; 1076ae8c6e27Sflorian case AUTR_STATE_VALID: return " VALID "; 1077ae8c6e27Sflorian case AUTR_STATE_MISSING: return " MISSING "; 1078ae8c6e27Sflorian case AUTR_STATE_REVOKED: return " REVOKED "; 1079ae8c6e27Sflorian case AUTR_STATE_REMOVED: return " REMOVED "; 1080ae8c6e27Sflorian } 1081ae8c6e27Sflorian return " UNKNOWN "; 1082ae8c6e27Sflorian } 1083ae8c6e27Sflorian 1084411c5950Sflorian /** ctime r for autotrust */ 1085411c5950Sflorian static char* autr_ctime_r(time_t* t, char* s) 1086411c5950Sflorian { 1087a7b9eedcSflorian if (ctime_r(t, s) == NULL) { 1088a7b9eedcSflorian s[0] = '?'; 1089a7b9eedcSflorian s[1] = '\n'; 1090a7b9eedcSflorian s[2] = '\0'; 1091a7b9eedcSflorian } 1092411c5950Sflorian #ifdef USE_WINSOCK 1093411c5950Sflorian if(strlen(s) > 10 && s[7]==' ' && s[8]=='0') 1094411c5950Sflorian s[8]=' '; /* fix error in windows ctime */ 1095411c5950Sflorian #endif 1096411c5950Sflorian return s; 1097411c5950Sflorian } 1098411c5950Sflorian 1099ae8c6e27Sflorian /** print ID to file */ 1100ae8c6e27Sflorian static int 1101ae8c6e27Sflorian print_id(FILE* out, char* fname, uint8_t* nm, size_t nmlen, uint16_t dclass) 1102ae8c6e27Sflorian { 1103ae8c6e27Sflorian char* s = sldns_wire2str_dname(nm, nmlen); 1104ae8c6e27Sflorian if(!s) { 1105ae8c6e27Sflorian log_err("malloc failure in write to %s", fname); 1106ae8c6e27Sflorian return 0; 1107ae8c6e27Sflorian } 1108ae8c6e27Sflorian if(fprintf(out, ";;id: %s %d\n", s, (int)dclass) < 0) { 1109ae8c6e27Sflorian log_err("could not write to %s: %s", fname, strerror(errno)); 1110ae8c6e27Sflorian free(s); 1111ae8c6e27Sflorian return 0; 1112ae8c6e27Sflorian } 1113ae8c6e27Sflorian free(s); 1114ae8c6e27Sflorian return 1; 1115ae8c6e27Sflorian } 1116ae8c6e27Sflorian 1117ae8c6e27Sflorian static int 1118ae8c6e27Sflorian autr_write_contents(FILE* out, char* fn, struct trust_anchor* tp) 1119ae8c6e27Sflorian { 1120ae8c6e27Sflorian char tmi[32]; 1121ae8c6e27Sflorian struct autr_ta* ta; 1122ae8c6e27Sflorian char* str; 1123ae8c6e27Sflorian 1124ae8c6e27Sflorian /* write pretty header */ 1125ae8c6e27Sflorian if(fprintf(out, "; autotrust trust anchor file\n") < 0) { 1126ae8c6e27Sflorian log_err("could not write to %s: %s", fn, strerror(errno)); 1127ae8c6e27Sflorian return 0; 1128ae8c6e27Sflorian } 1129ae8c6e27Sflorian if(tp->autr->revoked) { 1130ae8c6e27Sflorian if(fprintf(out, ";;REVOKED\n") < 0 || 1131ae8c6e27Sflorian fprintf(out, "; The zone has all keys revoked, and is\n" 1132ae8c6e27Sflorian "; considered as if it has no trust anchors.\n" 1133ae8c6e27Sflorian "; the remainder of the file is the last probe.\n" 1134ae8c6e27Sflorian "; to restart the trust anchor, overwrite this file.\n" 1135ae8c6e27Sflorian "; with one containing valid DNSKEYs or DSes.\n") < 0) { 1136ae8c6e27Sflorian log_err("could not write to %s: %s", fn, strerror(errno)); 1137ae8c6e27Sflorian return 0; 1138ae8c6e27Sflorian } 1139ae8c6e27Sflorian } 1140ae8c6e27Sflorian if(!print_id(out, fn, tp->name, tp->namelen, tp->dclass)) { 1141ae8c6e27Sflorian return 0; 1142ae8c6e27Sflorian } 1143ae8c6e27Sflorian if(fprintf(out, ";;last_queried: %u ;;%s", 1144ae8c6e27Sflorian (unsigned int)tp->autr->last_queried, 1145411c5950Sflorian autr_ctime_r(&(tp->autr->last_queried), tmi)) < 0 || 1146ae8c6e27Sflorian fprintf(out, ";;last_success: %u ;;%s", 1147ae8c6e27Sflorian (unsigned int)tp->autr->last_success, 1148411c5950Sflorian autr_ctime_r(&(tp->autr->last_success), tmi)) < 0 || 1149ae8c6e27Sflorian fprintf(out, ";;next_probe_time: %u ;;%s", 1150ae8c6e27Sflorian (unsigned int)tp->autr->next_probe_time, 1151411c5950Sflorian autr_ctime_r(&(tp->autr->next_probe_time), tmi)) < 0 || 1152ae8c6e27Sflorian fprintf(out, ";;query_failed: %d\n", (int)tp->autr->query_failed)<0 1153ae8c6e27Sflorian || fprintf(out, ";;query_interval: %d\n", 1154ae8c6e27Sflorian (int)tp->autr->query_interval) < 0 || 1155ae8c6e27Sflorian fprintf(out, ";;retry_time: %d\n", (int)tp->autr->retry_time) < 0) { 1156ae8c6e27Sflorian log_err("could not write to %s: %s", fn, strerror(errno)); 1157ae8c6e27Sflorian return 0; 1158ae8c6e27Sflorian } 1159ae8c6e27Sflorian 1160ae8c6e27Sflorian /* write anchors */ 1161ae8c6e27Sflorian for(ta=tp->autr->keys; ta; ta=ta->next) { 1162ae8c6e27Sflorian /* by default do not store START and REMOVED keys */ 1163ae8c6e27Sflorian if(ta->s == AUTR_STATE_START) 1164ae8c6e27Sflorian continue; 1165ae8c6e27Sflorian if(ta->s == AUTR_STATE_REMOVED) 1166ae8c6e27Sflorian continue; 1167ae8c6e27Sflorian /* only store keys */ 1168ae8c6e27Sflorian if(sldns_wirerr_get_type(ta->rr, ta->rr_len, ta->dname_len) 1169ae8c6e27Sflorian != LDNS_RR_TYPE_DNSKEY) 1170ae8c6e27Sflorian continue; 1171ae8c6e27Sflorian str = sldns_wire2str_rr(ta->rr, ta->rr_len); 1172ae8c6e27Sflorian if(!str || !str[0]) { 1173ae8c6e27Sflorian free(str); 1174ae8c6e27Sflorian log_err("malloc failure writing %s", fn); 1175ae8c6e27Sflorian return 0; 1176ae8c6e27Sflorian } 1177ae8c6e27Sflorian str[strlen(str)-1] = 0; /* remove newline */ 1178ae8c6e27Sflorian if(fprintf(out, "%s ;;state=%d [%s] ;;count=%d " 1179ae8c6e27Sflorian ";;lastchange=%u ;;%s", str, (int)ta->s, 1180ae8c6e27Sflorian trustanchor_state2str(ta->s), (int)ta->pending_count, 1181ae8c6e27Sflorian (unsigned int)ta->last_change, 1182411c5950Sflorian autr_ctime_r(&(ta->last_change), tmi)) < 0) { 1183ae8c6e27Sflorian log_err("could not write to %s: %s", fn, strerror(errno)); 1184ae8c6e27Sflorian free(str); 1185ae8c6e27Sflorian return 0; 1186ae8c6e27Sflorian } 1187ae8c6e27Sflorian free(str); 1188ae8c6e27Sflorian } 1189ae8c6e27Sflorian return 1; 1190ae8c6e27Sflorian } 1191ae8c6e27Sflorian 1192ae8c6e27Sflorian void autr_write_file(struct module_env* env, struct trust_anchor* tp) 1193ae8c6e27Sflorian { 1194ae8c6e27Sflorian FILE* out; 1195ae8c6e27Sflorian char* fname = tp->autr->file; 119657403691Sflorian #ifndef S_SPLINT_S 1197da8c8390Sflorian long long llvalue; 119857403691Sflorian #endif 1199ae8c6e27Sflorian char tempf[2048]; 1200ae8c6e27Sflorian log_assert(tp->autr); 1201ae8c6e27Sflorian if(!env) { 1202ae8c6e27Sflorian log_err("autr_write_file: Module environment is NULL."); 1203ae8c6e27Sflorian return; 1204ae8c6e27Sflorian } 1205da8c8390Sflorian /* unique name with pid number, thread number, and struct pointer 1206da8c8390Sflorian * (the pointer uniquifies for multiple libunbound contexts) */ 120757403691Sflorian #ifndef S_SPLINT_S 1208da8c8390Sflorian #if defined(SIZE_MAX) && defined(UINT32_MAX) && (UINT32_MAX == SIZE_MAX || INT32_MAX == SIZE_MAX) 1209da8c8390Sflorian /* avoid warning about upcast on 32bit systems */ 1210da8c8390Sflorian llvalue = (unsigned long)tp; 1211da8c8390Sflorian #else 1212da8c8390Sflorian llvalue = (unsigned long long)tp; 1213da8c8390Sflorian #endif 12147a05b9dfSflorian snprintf(tempf, sizeof(tempf), "%s.%d-%d-" ARG_LL "x", fname, (int)getpid(), 1215da8c8390Sflorian env->worker?*(int*)env->worker:0, llvalue); 121657403691Sflorian #endif /* S_SPLINT_S */ 1217ae8c6e27Sflorian verbose(VERB_ALGO, "autotrust: write to disk: %s", tempf); 1218ae8c6e27Sflorian out = fopen(tempf, "w"); 1219ae8c6e27Sflorian if(!out) { 1220ae8c6e27Sflorian fatal_exit("could not open autotrust file for writing, %s: %s", 1221ae8c6e27Sflorian tempf, strerror(errno)); 1222ae8c6e27Sflorian return; 1223ae8c6e27Sflorian } 1224ae8c6e27Sflorian if(!autr_write_contents(out, tempf, tp)) { 1225ae8c6e27Sflorian /* failed to write contents (completely) */ 1226ae8c6e27Sflorian fclose(out); 1227ae8c6e27Sflorian unlink(tempf); 1228ae8c6e27Sflorian fatal_exit("could not completely write: %s", fname); 1229ae8c6e27Sflorian return; 1230ae8c6e27Sflorian } 1231ae8c6e27Sflorian if(fflush(out) != 0) 1232ae8c6e27Sflorian log_err("could not fflush(%s): %s", fname, strerror(errno)); 1233ae8c6e27Sflorian #ifdef HAVE_FSYNC 1234ae8c6e27Sflorian if(fsync(fileno(out)) != 0) 1235ae8c6e27Sflorian log_err("could not fsync(%s): %s", fname, strerror(errno)); 1236ae8c6e27Sflorian #else 1237ae8c6e27Sflorian FlushFileBuffers((HANDLE)_get_osfhandle(_fileno(out))); 1238ae8c6e27Sflorian #endif 1239ae8c6e27Sflorian if(fclose(out) != 0) { 1240ae8c6e27Sflorian fatal_exit("could not complete write: %s: %s", 1241ae8c6e27Sflorian fname, strerror(errno)); 1242ae8c6e27Sflorian unlink(tempf); 1243ae8c6e27Sflorian return; 1244ae8c6e27Sflorian } 1245ae8c6e27Sflorian /* success; overwrite actual file */ 1246ae8c6e27Sflorian verbose(VERB_ALGO, "autotrust: replaced %s", fname); 1247ae8c6e27Sflorian #ifdef UB_ON_WINDOWS 1248ae8c6e27Sflorian (void)unlink(fname); /* windows does not replace file with rename() */ 1249ae8c6e27Sflorian #endif 1250ae8c6e27Sflorian if(rename(tempf, fname) < 0) { 1251ae8c6e27Sflorian fatal_exit("rename(%s to %s): %s", tempf, fname, strerror(errno)); 1252ae8c6e27Sflorian } 1253ae8c6e27Sflorian } 1254ae8c6e27Sflorian 1255ae8c6e27Sflorian /** 1256ae8c6e27Sflorian * Verify if dnskey works for trust point 1257ae8c6e27Sflorian * @param env: environment (with time) for verification 1258ae8c6e27Sflorian * @param ve: validator environment (with options) for verification. 1259ae8c6e27Sflorian * @param tp: trust point to verify with 1260ae8c6e27Sflorian * @param rrset: DNSKEY rrset to verify. 1261ae8c6e27Sflorian * @param qstate: qstate with region. 1262ae8c6e27Sflorian * @return false on failure, true if verification successful. 1263ae8c6e27Sflorian */ 1264ae8c6e27Sflorian static int 1265ae8c6e27Sflorian verify_dnskey(struct module_env* env, struct val_env* ve, 1266ae8c6e27Sflorian struct trust_anchor* tp, struct ub_packed_rrset_key* rrset, 1267ae8c6e27Sflorian struct module_qstate* qstate) 1268ae8c6e27Sflorian { 1269*7037e34cSflorian char reasonbuf[256]; 1270ae8c6e27Sflorian char* reason = NULL; 1271ae8c6e27Sflorian uint8_t sigalg[ALGO_NEEDS_MAX+1]; 1272ae8c6e27Sflorian int downprot = env->cfg->harden_algo_downgrade; 1273ae8c6e27Sflorian enum sec_status sec = val_verify_DNSKEY_with_TA(env, ve, rrset, 1274ae8c6e27Sflorian tp->ds_rrset, tp->dnskey_rrset, downprot?sigalg:NULL, &reason, 1275*7037e34cSflorian NULL, qstate, reasonbuf, sizeof(reasonbuf)); 1276ae8c6e27Sflorian /* sigalg is ignored, it returns algorithms signalled to exist, but 1277ae8c6e27Sflorian * in 5011 there are no other rrsets to check. if downprot is 1278ae8c6e27Sflorian * enabled, then it checks that the DNSKEY is signed with all 1279ae8c6e27Sflorian * algorithms available in the trust store. */ 1280ae8c6e27Sflorian verbose(VERB_ALGO, "autotrust: validate DNSKEY with anchor: %s", 1281ae8c6e27Sflorian sec_status_to_string(sec)); 1282ae8c6e27Sflorian return sec == sec_status_secure; 1283ae8c6e27Sflorian } 1284ae8c6e27Sflorian 1285ae8c6e27Sflorian static int32_t 1286ae8c6e27Sflorian rrsig_get_expiry(uint8_t* d, size_t len) 1287ae8c6e27Sflorian { 1288ae8c6e27Sflorian /* rrsig: 2(rdlen), 2(type) 1(alg) 1(v) 4(origttl), then 4(expi), (4)incep) */ 1289ae8c6e27Sflorian if(len < 2+8+4) 1290ae8c6e27Sflorian return 0; 1291ae8c6e27Sflorian return sldns_read_uint32(d+2+8); 1292ae8c6e27Sflorian } 1293ae8c6e27Sflorian 1294ae8c6e27Sflorian /** Find minimum expiration interval from signatures */ 1295ae8c6e27Sflorian static time_t 1296ae8c6e27Sflorian min_expiry(struct module_env* env, struct packed_rrset_data* dd) 1297ae8c6e27Sflorian { 1298ae8c6e27Sflorian size_t i; 1299ae8c6e27Sflorian int32_t t, r = 15 * 24 * 3600; /* 15 days max */ 1300ae8c6e27Sflorian for(i=dd->count; i<dd->count+dd->rrsig_count; i++) { 1301ae8c6e27Sflorian t = rrsig_get_expiry(dd->rr_data[i], dd->rr_len[i]); 1302ae8c6e27Sflorian if((int32_t)t - (int32_t)*env->now > 0) { 1303ae8c6e27Sflorian t -= (int32_t)*env->now; 1304ae8c6e27Sflorian if(t < r) 1305ae8c6e27Sflorian r = t; 1306ae8c6e27Sflorian } 1307ae8c6e27Sflorian } 1308ae8c6e27Sflorian return (time_t)r; 1309ae8c6e27Sflorian } 1310ae8c6e27Sflorian 1311ae8c6e27Sflorian /** Is rr self-signed revoked key */ 1312ae8c6e27Sflorian static int 1313ae8c6e27Sflorian rr_is_selfsigned_revoked(struct module_env* env, struct val_env* ve, 1314ae8c6e27Sflorian struct ub_packed_rrset_key* dnskey_rrset, size_t i, 1315ae8c6e27Sflorian struct module_qstate* qstate) 1316ae8c6e27Sflorian { 1317ae8c6e27Sflorian enum sec_status sec; 1318ae8c6e27Sflorian char* reason = NULL; 1319ae8c6e27Sflorian verbose(VERB_ALGO, "seen REVOKE flag, check self-signed, rr %d", 1320ae8c6e27Sflorian (int)i); 1321ae8c6e27Sflorian /* no algorithm downgrade protection necessary, if it is selfsigned 1322ae8c6e27Sflorian * revoked it can be removed. */ 1323ae8c6e27Sflorian sec = dnskey_verify_rrset(env, ve, dnskey_rrset, dnskey_rrset, i, 13247a05b9dfSflorian &reason, NULL, LDNS_SECTION_ANSWER, qstate); 1325ae8c6e27Sflorian return (sec == sec_status_secure); 1326ae8c6e27Sflorian } 1327ae8c6e27Sflorian 1328ae8c6e27Sflorian /** Set fetched value */ 1329ae8c6e27Sflorian static void 1330ae8c6e27Sflorian seen_trustanchor(struct autr_ta* ta, uint8_t seen) 1331ae8c6e27Sflorian { 1332ae8c6e27Sflorian ta->fetched = seen; 1333ae8c6e27Sflorian if(ta->pending_count < 250) /* no numerical overflow, please */ 1334ae8c6e27Sflorian ta->pending_count++; 1335ae8c6e27Sflorian } 1336ae8c6e27Sflorian 1337ae8c6e27Sflorian /** set revoked value */ 1338ae8c6e27Sflorian static void 1339ae8c6e27Sflorian seen_revoked_trustanchor(struct autr_ta* ta, uint8_t revoked) 1340ae8c6e27Sflorian { 1341ae8c6e27Sflorian ta->revoked = revoked; 1342ae8c6e27Sflorian } 1343ae8c6e27Sflorian 1344ae8c6e27Sflorian /** revoke a trust anchor */ 1345ae8c6e27Sflorian static void 1346ae8c6e27Sflorian revoke_dnskey(struct autr_ta* ta, int off) 1347ae8c6e27Sflorian { 1348ae8c6e27Sflorian uint16_t flags; 1349ae8c6e27Sflorian uint8_t* data; 1350ae8c6e27Sflorian if(sldns_wirerr_get_type(ta->rr, ta->rr_len, ta->dname_len) != 1351ae8c6e27Sflorian LDNS_RR_TYPE_DNSKEY) 1352ae8c6e27Sflorian return; 1353ae8c6e27Sflorian if(sldns_wirerr_get_rdatalen(ta->rr, ta->rr_len, ta->dname_len) < 2) 1354ae8c6e27Sflorian return; 1355ae8c6e27Sflorian data = sldns_wirerr_get_rdata(ta->rr, ta->rr_len, ta->dname_len); 1356ae8c6e27Sflorian flags = sldns_read_uint16(data); 1357ae8c6e27Sflorian if (off && (flags&LDNS_KEY_REVOKE_KEY)) 1358ae8c6e27Sflorian flags ^= LDNS_KEY_REVOKE_KEY; /* flip */ 1359ae8c6e27Sflorian else 1360ae8c6e27Sflorian flags |= LDNS_KEY_REVOKE_KEY; 1361ae8c6e27Sflorian sldns_write_uint16(data, flags); 1362ae8c6e27Sflorian } 1363ae8c6e27Sflorian 1364ae8c6e27Sflorian /** Compare two RRs skipping the REVOKED bit. Pass rdata(no len) */ 1365ae8c6e27Sflorian static int 1366ae8c6e27Sflorian dnskey_compare_skip_revbit(uint8_t* a, size_t a_len, uint8_t* b, size_t b_len) 1367ae8c6e27Sflorian { 1368ae8c6e27Sflorian size_t i; 1369ae8c6e27Sflorian if(a_len != b_len) 1370ae8c6e27Sflorian return -1; 1371ae8c6e27Sflorian /* compare RRs RDATA byte for byte. */ 1372ae8c6e27Sflorian for(i = 0; i < a_len; i++) 1373ae8c6e27Sflorian { 1374ae8c6e27Sflorian uint8_t rdf1, rdf2; 1375ae8c6e27Sflorian rdf1 = a[i]; 1376ae8c6e27Sflorian rdf2 = b[i]; 1377ae8c6e27Sflorian if(i==1) { 1378ae8c6e27Sflorian /* this is the second part of the flags field */ 1379ae8c6e27Sflorian rdf1 |= LDNS_KEY_REVOKE_KEY; 1380ae8c6e27Sflorian rdf2 |= LDNS_KEY_REVOKE_KEY; 1381ae8c6e27Sflorian } 1382ae8c6e27Sflorian if (rdf1 < rdf2) return -1; 1383ae8c6e27Sflorian else if (rdf1 > rdf2) return 1; 1384ae8c6e27Sflorian } 1385ae8c6e27Sflorian return 0; 1386ae8c6e27Sflorian } 1387ae8c6e27Sflorian 1388ae8c6e27Sflorian 1389ae8c6e27Sflorian /** compare trust anchor with rdata, 0 if equal. Pass rdata(no len) */ 1390ae8c6e27Sflorian static int 1391ae8c6e27Sflorian ta_compare(struct autr_ta* a, uint16_t t, uint8_t* b, size_t b_len) 1392ae8c6e27Sflorian { 1393ae8c6e27Sflorian if(!a) return -1; 1394ae8c6e27Sflorian else if(!b) return -1; 1395ae8c6e27Sflorian else if(sldns_wirerr_get_type(a->rr, a->rr_len, a->dname_len) != t) 1396ae8c6e27Sflorian return (int)sldns_wirerr_get_type(a->rr, a->rr_len, 1397ae8c6e27Sflorian a->dname_len) - (int)t; 1398ae8c6e27Sflorian else if(t == LDNS_RR_TYPE_DNSKEY) { 1399ae8c6e27Sflorian return dnskey_compare_skip_revbit( 1400ae8c6e27Sflorian sldns_wirerr_get_rdata(a->rr, a->rr_len, a->dname_len), 1401ae8c6e27Sflorian sldns_wirerr_get_rdatalen(a->rr, a->rr_len, 1402ae8c6e27Sflorian a->dname_len), b, b_len); 1403ae8c6e27Sflorian } 1404ae8c6e27Sflorian else if(t == LDNS_RR_TYPE_DS) { 1405ae8c6e27Sflorian if(sldns_wirerr_get_rdatalen(a->rr, a->rr_len, a->dname_len) != 1406ae8c6e27Sflorian b_len) 1407ae8c6e27Sflorian return -1; 1408ae8c6e27Sflorian return memcmp(sldns_wirerr_get_rdata(a->rr, 1409ae8c6e27Sflorian a->rr_len, a->dname_len), b, b_len); 1410ae8c6e27Sflorian } 1411ae8c6e27Sflorian return -1; 1412ae8c6e27Sflorian } 1413ae8c6e27Sflorian 1414ae8c6e27Sflorian /** 1415ae8c6e27Sflorian * Find key 1416ae8c6e27Sflorian * @param tp: to search in 1417ae8c6e27Sflorian * @param t: rr type of the rdata. 1418ae8c6e27Sflorian * @param rdata: to look for (no rdatalen in it) 1419ae8c6e27Sflorian * @param rdata_len: length of rdata 1420ae8c6e27Sflorian * @param result: returns NULL or the ta key looked for. 1421ae8c6e27Sflorian * @return false on malloc failure during search. if true examine result. 1422ae8c6e27Sflorian */ 1423ae8c6e27Sflorian static int 1424ae8c6e27Sflorian find_key(struct trust_anchor* tp, uint16_t t, uint8_t* rdata, size_t rdata_len, 1425ae8c6e27Sflorian struct autr_ta** result) 1426ae8c6e27Sflorian { 1427ae8c6e27Sflorian struct autr_ta* ta; 1428ae8c6e27Sflorian if(!tp || !rdata) { 1429ae8c6e27Sflorian *result = NULL; 1430ae8c6e27Sflorian return 0; 1431ae8c6e27Sflorian } 1432ae8c6e27Sflorian for(ta=tp->autr->keys; ta; ta=ta->next) { 1433ae8c6e27Sflorian if(ta_compare(ta, t, rdata, rdata_len) == 0) { 1434ae8c6e27Sflorian *result = ta; 1435ae8c6e27Sflorian return 1; 1436ae8c6e27Sflorian } 1437ae8c6e27Sflorian } 1438ae8c6e27Sflorian *result = NULL; 1439ae8c6e27Sflorian return 1; 1440ae8c6e27Sflorian } 1441ae8c6e27Sflorian 1442ae8c6e27Sflorian /** add key and clone RR and tp already locked. rdata without rdlen. */ 1443ae8c6e27Sflorian static struct autr_ta* 1444ae8c6e27Sflorian add_key(struct trust_anchor* tp, uint32_t ttl, uint8_t* rdata, size_t rdata_len) 1445ae8c6e27Sflorian { 1446ae8c6e27Sflorian struct autr_ta* ta; 1447ae8c6e27Sflorian uint8_t* rr; 1448ae8c6e27Sflorian size_t rr_len, dname_len; 1449ae8c6e27Sflorian uint16_t rrtype = htons(LDNS_RR_TYPE_DNSKEY); 1450ae8c6e27Sflorian uint16_t rrclass = htons(LDNS_RR_CLASS_IN); 1451ae8c6e27Sflorian uint16_t rdlen = htons(rdata_len); 1452ae8c6e27Sflorian dname_len = tp->namelen; 1453ae8c6e27Sflorian ttl = htonl(ttl); 1454ae8c6e27Sflorian rr_len = dname_len + 10 /* type,class,ttl,rdatalen */ + rdata_len; 1455ae8c6e27Sflorian rr = (uint8_t*)malloc(rr_len); 1456ae8c6e27Sflorian if(!rr) return NULL; 1457ae8c6e27Sflorian memmove(rr, tp->name, tp->namelen); 1458ae8c6e27Sflorian memmove(rr+dname_len, &rrtype, 2); 1459ae8c6e27Sflorian memmove(rr+dname_len+2, &rrclass, 2); 1460ae8c6e27Sflorian memmove(rr+dname_len+4, &ttl, 4); 1461ae8c6e27Sflorian memmove(rr+dname_len+8, &rdlen, 2); 1462ae8c6e27Sflorian memmove(rr+dname_len+10, rdata, rdata_len); 1463ae8c6e27Sflorian ta = autr_ta_create(rr, rr_len, dname_len); 1464ae8c6e27Sflorian if(!ta) { 1465ae8c6e27Sflorian /* rr freed in autr_ta_create */ 1466ae8c6e27Sflorian return NULL; 1467ae8c6e27Sflorian } 1468ae8c6e27Sflorian /* link in, tp already locked */ 1469ae8c6e27Sflorian ta->next = tp->autr->keys; 1470ae8c6e27Sflorian tp->autr->keys = ta; 1471ae8c6e27Sflorian return ta; 1472ae8c6e27Sflorian } 1473ae8c6e27Sflorian 1474ae8c6e27Sflorian /** get TTL from DNSKEY rrset */ 1475ae8c6e27Sflorian static time_t 1476ae8c6e27Sflorian key_ttl(struct ub_packed_rrset_key* k) 1477ae8c6e27Sflorian { 1478ae8c6e27Sflorian struct packed_rrset_data* d = (struct packed_rrset_data*)k->entry.data; 1479ae8c6e27Sflorian return d->ttl; 1480ae8c6e27Sflorian } 1481ae8c6e27Sflorian 1482ae8c6e27Sflorian /** update the time values for the trustpoint */ 1483ae8c6e27Sflorian static void 1484ae8c6e27Sflorian set_tp_times(struct trust_anchor* tp, time_t rrsig_exp_interval, 1485ae8c6e27Sflorian time_t origttl, int* changed) 1486ae8c6e27Sflorian { 1487ae8c6e27Sflorian time_t x, qi = tp->autr->query_interval, rt = tp->autr->retry_time; 1488ae8c6e27Sflorian 1489ae8c6e27Sflorian /* x = MIN(15days, ttl/2, expire/2) */ 1490ae8c6e27Sflorian x = 15 * 24 * 3600; 1491ae8c6e27Sflorian if(origttl/2 < x) 1492ae8c6e27Sflorian x = origttl/2; 1493ae8c6e27Sflorian if(rrsig_exp_interval/2 < x) 1494ae8c6e27Sflorian x = rrsig_exp_interval/2; 1495ae8c6e27Sflorian /* MAX(1hr, x) */ 1496ae8c6e27Sflorian if(!autr_permit_small_holddown) { 1497ae8c6e27Sflorian if(x < 3600) 1498ae8c6e27Sflorian tp->autr->query_interval = 3600; 1499ae8c6e27Sflorian else tp->autr->query_interval = x; 1500ae8c6e27Sflorian } else tp->autr->query_interval = x; 1501ae8c6e27Sflorian 1502ae8c6e27Sflorian /* x= MIN(1day, ttl/10, expire/10) */ 1503ae8c6e27Sflorian x = 24 * 3600; 1504ae8c6e27Sflorian if(origttl/10 < x) 1505ae8c6e27Sflorian x = origttl/10; 1506ae8c6e27Sflorian if(rrsig_exp_interval/10 < x) 1507ae8c6e27Sflorian x = rrsig_exp_interval/10; 1508ae8c6e27Sflorian /* MAX(1hr, x) */ 1509ae8c6e27Sflorian if(!autr_permit_small_holddown) { 1510ae8c6e27Sflorian if(x < 3600) 1511ae8c6e27Sflorian tp->autr->retry_time = 3600; 1512ae8c6e27Sflorian else tp->autr->retry_time = x; 1513ae8c6e27Sflorian } else tp->autr->retry_time = x; 1514ae8c6e27Sflorian 1515ae8c6e27Sflorian if(qi != tp->autr->query_interval || rt != tp->autr->retry_time) { 1516ae8c6e27Sflorian *changed = 1; 1517ae8c6e27Sflorian verbose(VERB_ALGO, "orig_ttl is %d", (int)origttl); 1518ae8c6e27Sflorian verbose(VERB_ALGO, "rrsig_exp_interval is %d", 1519ae8c6e27Sflorian (int)rrsig_exp_interval); 1520ae8c6e27Sflorian verbose(VERB_ALGO, "query_interval: %d, retry_time: %d", 1521ae8c6e27Sflorian (int)tp->autr->query_interval, 1522ae8c6e27Sflorian (int)tp->autr->retry_time); 1523ae8c6e27Sflorian } 1524ae8c6e27Sflorian } 1525ae8c6e27Sflorian 1526ae8c6e27Sflorian /** init events to zero */ 1527ae8c6e27Sflorian static void 1528ae8c6e27Sflorian init_events(struct trust_anchor* tp) 1529ae8c6e27Sflorian { 1530ae8c6e27Sflorian struct autr_ta* ta; 1531ae8c6e27Sflorian for(ta=tp->autr->keys; ta; ta=ta->next) { 1532ae8c6e27Sflorian ta->fetched = 0; 1533ae8c6e27Sflorian } 1534ae8c6e27Sflorian } 1535ae8c6e27Sflorian 1536ae8c6e27Sflorian /** check for revoked keys without trusting any other information */ 1537ae8c6e27Sflorian static void 1538ae8c6e27Sflorian check_contains_revoked(struct module_env* env, struct val_env* ve, 1539ae8c6e27Sflorian struct trust_anchor* tp, struct ub_packed_rrset_key* dnskey_rrset, 1540ae8c6e27Sflorian int* changed, struct module_qstate* qstate) 1541ae8c6e27Sflorian { 1542ae8c6e27Sflorian struct packed_rrset_data* dd = (struct packed_rrset_data*) 1543ae8c6e27Sflorian dnskey_rrset->entry.data; 1544ae8c6e27Sflorian size_t i; 1545ae8c6e27Sflorian log_assert(ntohs(dnskey_rrset->rk.type) == LDNS_RR_TYPE_DNSKEY); 1546ae8c6e27Sflorian for(i=0; i<dd->count; i++) { 1547ae8c6e27Sflorian struct autr_ta* ta = NULL; 1548ae8c6e27Sflorian if(!rr_is_dnskey_sep(ntohs(dnskey_rrset->rk.type), 1549ae8c6e27Sflorian dd->rr_data[i]+2, dd->rr_len[i]-2) || 1550ae8c6e27Sflorian !rr_is_dnskey_revoked(ntohs(dnskey_rrset->rk.type), 1551ae8c6e27Sflorian dd->rr_data[i]+2, dd->rr_len[i]-2)) 1552ae8c6e27Sflorian continue; /* not a revoked KSK */ 1553ae8c6e27Sflorian if(!find_key(tp, ntohs(dnskey_rrset->rk.type), 1554ae8c6e27Sflorian dd->rr_data[i]+2, dd->rr_len[i]-2, &ta)) { 1555ae8c6e27Sflorian log_err("malloc failure"); 1556ae8c6e27Sflorian continue; /* malloc fail in compare*/ 1557ae8c6e27Sflorian } 1558ae8c6e27Sflorian if(!ta) 1559ae8c6e27Sflorian continue; /* key not found */ 1560ae8c6e27Sflorian if(rr_is_selfsigned_revoked(env, ve, dnskey_rrset, i, qstate)) { 1561ae8c6e27Sflorian /* checked if there is an rrsig signed by this key. */ 1562ae8c6e27Sflorian /* same keytag, but stored can be revoked already, so 1563ae8c6e27Sflorian * compare keytags, with +0 or +128(REVOKE flag) */ 1564ae8c6e27Sflorian log_assert(dnskey_calc_keytag(dnskey_rrset, i)-128 == 1565ae8c6e27Sflorian sldns_calc_keytag_raw(sldns_wirerr_get_rdata( 1566ae8c6e27Sflorian ta->rr, ta->rr_len, ta->dname_len), 1567ae8c6e27Sflorian sldns_wirerr_get_rdatalen(ta->rr, ta->rr_len, 1568ae8c6e27Sflorian ta->dname_len)) || 1569ae8c6e27Sflorian dnskey_calc_keytag(dnskey_rrset, i) == 1570ae8c6e27Sflorian sldns_calc_keytag_raw(sldns_wirerr_get_rdata( 1571ae8c6e27Sflorian ta->rr, ta->rr_len, ta->dname_len), 1572ae8c6e27Sflorian sldns_wirerr_get_rdatalen(ta->rr, ta->rr_len, 1573ae8c6e27Sflorian ta->dname_len))); /* checks conversion*/ 1574ae8c6e27Sflorian verbose_key(ta, VERB_ALGO, "is self-signed revoked"); 1575ae8c6e27Sflorian if(!ta->revoked) 1576ae8c6e27Sflorian *changed = 1; 1577ae8c6e27Sflorian seen_revoked_trustanchor(ta, 1); 1578ae8c6e27Sflorian do_revoked(env, ta, changed); 1579ae8c6e27Sflorian } 1580ae8c6e27Sflorian } 1581ae8c6e27Sflorian } 1582ae8c6e27Sflorian 1583ae8c6e27Sflorian /** See if a DNSKEY is verified by one of the DSes */ 1584ae8c6e27Sflorian static int 1585ae8c6e27Sflorian key_matches_a_ds(struct module_env* env, struct val_env* ve, 1586ae8c6e27Sflorian struct ub_packed_rrset_key* dnskey_rrset, size_t key_idx, 1587ae8c6e27Sflorian struct ub_packed_rrset_key* ds_rrset) 1588ae8c6e27Sflorian { 1589ae8c6e27Sflorian struct packed_rrset_data* dd = (struct packed_rrset_data*) 1590ae8c6e27Sflorian ds_rrset->entry.data; 1591ae8c6e27Sflorian size_t ds_idx, num = dd->count; 1592ae8c6e27Sflorian int d = val_favorite_ds_algo(ds_rrset); 1593ae8c6e27Sflorian char* reason = ""; 1594ae8c6e27Sflorian for(ds_idx=0; ds_idx<num; ds_idx++) { 1595ae8c6e27Sflorian if(!ds_digest_algo_is_supported(ds_rrset, ds_idx) || 1596ae8c6e27Sflorian !ds_key_algo_is_supported(ds_rrset, ds_idx) || 1597411c5950Sflorian !dnskey_size_is_supported(dnskey_rrset, key_idx) || 1598ae8c6e27Sflorian ds_get_digest_algo(ds_rrset, ds_idx) != d) 1599ae8c6e27Sflorian continue; 1600ae8c6e27Sflorian if(ds_get_key_algo(ds_rrset, ds_idx) 1601ae8c6e27Sflorian != dnskey_get_algo(dnskey_rrset, key_idx) 1602ae8c6e27Sflorian || dnskey_calc_keytag(dnskey_rrset, key_idx) 1603ae8c6e27Sflorian != ds_get_keytag(ds_rrset, ds_idx)) { 1604ae8c6e27Sflorian continue; 1605ae8c6e27Sflorian } 1606ae8c6e27Sflorian if(!ds_digest_match_dnskey(env, dnskey_rrset, key_idx, 1607ae8c6e27Sflorian ds_rrset, ds_idx)) { 1608ae8c6e27Sflorian verbose(VERB_ALGO, "DS match attempt failed"); 1609ae8c6e27Sflorian continue; 1610ae8c6e27Sflorian } 1611ae8c6e27Sflorian /* match of hash is sufficient for bootstrap of trust point */ 1612ae8c6e27Sflorian (void)reason; 1613ae8c6e27Sflorian (void)ve; 1614ae8c6e27Sflorian return 1; 1615ae8c6e27Sflorian /* no need to check RRSIG, DS hash already matched with source 1616ae8c6e27Sflorian if(dnskey_verify_rrset(env, ve, dnskey_rrset, 1617ae8c6e27Sflorian dnskey_rrset, key_idx, &reason) == sec_status_secure) { 1618ae8c6e27Sflorian return 1; 1619ae8c6e27Sflorian } else { 1620ae8c6e27Sflorian verbose(VERB_ALGO, "DS match failed because the key " 1621ae8c6e27Sflorian "does not verify the keyset: %s", reason); 1622ae8c6e27Sflorian } 1623ae8c6e27Sflorian */ 1624ae8c6e27Sflorian } 1625ae8c6e27Sflorian return 0; 1626ae8c6e27Sflorian } 1627ae8c6e27Sflorian 1628ae8c6e27Sflorian /** Set update events */ 1629ae8c6e27Sflorian static int 1630ae8c6e27Sflorian update_events(struct module_env* env, struct val_env* ve, 1631ae8c6e27Sflorian struct trust_anchor* tp, struct ub_packed_rrset_key* dnskey_rrset, 1632ae8c6e27Sflorian int* changed) 1633ae8c6e27Sflorian { 1634ae8c6e27Sflorian struct packed_rrset_data* dd = (struct packed_rrset_data*) 1635ae8c6e27Sflorian dnskey_rrset->entry.data; 1636ae8c6e27Sflorian size_t i; 1637ae8c6e27Sflorian log_assert(ntohs(dnskey_rrset->rk.type) == LDNS_RR_TYPE_DNSKEY); 1638ae8c6e27Sflorian init_events(tp); 1639ae8c6e27Sflorian for(i=0; i<dd->count; i++) { 1640ae8c6e27Sflorian struct autr_ta* ta = NULL; 1641ae8c6e27Sflorian if(!rr_is_dnskey_sep(ntohs(dnskey_rrset->rk.type), 1642ae8c6e27Sflorian dd->rr_data[i]+2, dd->rr_len[i]-2)) 1643ae8c6e27Sflorian continue; 1644ae8c6e27Sflorian if(rr_is_dnskey_revoked(ntohs(dnskey_rrset->rk.type), 1645ae8c6e27Sflorian dd->rr_data[i]+2, dd->rr_len[i]-2)) { 1646ae8c6e27Sflorian /* self-signed revoked keys already detected before, 1647ae8c6e27Sflorian * other revoked keys are not 'added' again */ 1648ae8c6e27Sflorian continue; 1649ae8c6e27Sflorian } 1650ae8c6e27Sflorian /* is a key of this type supported?. Note rr_list and 1651ae8c6e27Sflorian * packed_rrset are in the same order. */ 1652411c5950Sflorian if(!dnskey_algo_is_supported(dnskey_rrset, i) || 1653411c5950Sflorian !dnskey_size_is_supported(dnskey_rrset, i)) { 1654ae8c6e27Sflorian /* skip unknown algorithm key, it is useless to us */ 1655ae8c6e27Sflorian log_nametypeclass(VERB_DETAIL, "trust point has " 1656ae8c6e27Sflorian "unsupported algorithm at", 1657ae8c6e27Sflorian tp->name, LDNS_RR_TYPE_DNSKEY, tp->dclass); 1658ae8c6e27Sflorian continue; 1659ae8c6e27Sflorian } 1660ae8c6e27Sflorian 1661ae8c6e27Sflorian /* is it new? if revocation bit set, find the unrevoked key */ 1662ae8c6e27Sflorian if(!find_key(tp, ntohs(dnskey_rrset->rk.type), 1663ae8c6e27Sflorian dd->rr_data[i]+2, dd->rr_len[i]-2, &ta)) { 1664ae8c6e27Sflorian return 0; 1665ae8c6e27Sflorian } 1666ae8c6e27Sflorian if(!ta) { 1667ae8c6e27Sflorian ta = add_key(tp, (uint32_t)dd->rr_ttl[i], 1668ae8c6e27Sflorian dd->rr_data[i]+2, dd->rr_len[i]-2); 1669ae8c6e27Sflorian *changed = 1; 1670ae8c6e27Sflorian /* first time seen, do we have DSes? if match: VALID */ 1671ae8c6e27Sflorian if(ta && tp->ds_rrset && key_matches_a_ds(env, ve, 1672ae8c6e27Sflorian dnskey_rrset, i, tp->ds_rrset)) { 1673ae8c6e27Sflorian verbose_key(ta, VERB_ALGO, "verified by DS"); 1674ae8c6e27Sflorian ta->s = AUTR_STATE_VALID; 1675ae8c6e27Sflorian } 1676ae8c6e27Sflorian } 1677ae8c6e27Sflorian if(!ta) { 1678ae8c6e27Sflorian return 0; 1679ae8c6e27Sflorian } 1680ae8c6e27Sflorian seen_trustanchor(ta, 1); 1681ae8c6e27Sflorian verbose_key(ta, VERB_ALGO, "in DNS response"); 1682ae8c6e27Sflorian } 1683ae8c6e27Sflorian set_tp_times(tp, min_expiry(env, dd), key_ttl(dnskey_rrset), changed); 1684ae8c6e27Sflorian return 1; 1685ae8c6e27Sflorian } 1686ae8c6e27Sflorian 1687ae8c6e27Sflorian /** 1688ae8c6e27Sflorian * Check if the holddown time has already exceeded 1689ae8c6e27Sflorian * setting: add-holddown: add holddown timer 1690ae8c6e27Sflorian * setting: del-holddown: del holddown timer 1691ae8c6e27Sflorian * @param env: environment with current time 1692ae8c6e27Sflorian * @param ta: trust anchor to check for. 1693ae8c6e27Sflorian * @param holddown: the timer value 1694ae8c6e27Sflorian * @return number of seconds the holddown has passed. 1695ae8c6e27Sflorian */ 1696ae8c6e27Sflorian static time_t 1697ae8c6e27Sflorian check_holddown(struct module_env* env, struct autr_ta* ta, 1698ae8c6e27Sflorian unsigned int holddown) 1699ae8c6e27Sflorian { 1700ae8c6e27Sflorian time_t elapsed; 1701ae8c6e27Sflorian if(*env->now < ta->last_change) { 1702ae8c6e27Sflorian log_warn("time goes backwards. delaying key holddown"); 1703ae8c6e27Sflorian return 0; 1704ae8c6e27Sflorian } 1705ae8c6e27Sflorian elapsed = *env->now - ta->last_change; 1706ae8c6e27Sflorian if (elapsed > (time_t)holddown) { 1707ae8c6e27Sflorian return elapsed-(time_t)holddown; 1708ae8c6e27Sflorian } 1709ae8c6e27Sflorian verbose_key(ta, VERB_ALGO, "holddown time " ARG_LL "d seconds to go", 1710ae8c6e27Sflorian (long long) ((time_t)holddown-elapsed)); 1711ae8c6e27Sflorian return 0; 1712ae8c6e27Sflorian } 1713ae8c6e27Sflorian 1714ae8c6e27Sflorian 1715ae8c6e27Sflorian /** Set last_change to now */ 1716ae8c6e27Sflorian static void 1717ae8c6e27Sflorian reset_holddown(struct module_env* env, struct autr_ta* ta, int* changed) 1718ae8c6e27Sflorian { 1719ae8c6e27Sflorian ta->last_change = *env->now; 1720ae8c6e27Sflorian *changed = 1; 1721ae8c6e27Sflorian } 1722ae8c6e27Sflorian 1723ae8c6e27Sflorian /** Set the state for this trust anchor */ 1724ae8c6e27Sflorian static void 1725ae8c6e27Sflorian set_trustanchor_state(struct module_env* env, struct autr_ta* ta, int* changed, 1726ae8c6e27Sflorian autr_state_type s) 1727ae8c6e27Sflorian { 1728ae8c6e27Sflorian verbose_key(ta, VERB_ALGO, "update: %s to %s", 1729ae8c6e27Sflorian trustanchor_state2str(ta->s), trustanchor_state2str(s)); 1730ae8c6e27Sflorian ta->s = s; 1731ae8c6e27Sflorian reset_holddown(env, ta, changed); 1732ae8c6e27Sflorian } 1733ae8c6e27Sflorian 1734ae8c6e27Sflorian 1735ae8c6e27Sflorian /** Event: NewKey */ 1736ae8c6e27Sflorian static void 1737ae8c6e27Sflorian do_newkey(struct module_env* env, struct autr_ta* anchor, int* c) 1738ae8c6e27Sflorian { 1739ae8c6e27Sflorian if (anchor->s == AUTR_STATE_START) 1740ae8c6e27Sflorian set_trustanchor_state(env, anchor, c, AUTR_STATE_ADDPEND); 1741ae8c6e27Sflorian } 1742ae8c6e27Sflorian 1743ae8c6e27Sflorian /** Event: AddTime */ 1744ae8c6e27Sflorian static void 1745ae8c6e27Sflorian do_addtime(struct module_env* env, struct autr_ta* anchor, int* c) 1746ae8c6e27Sflorian { 1747ae8c6e27Sflorian /* This not according to RFC, this is 30 days, but the RFC demands 1748ae8c6e27Sflorian * MAX(30days, TTL expire time of first DNSKEY set with this key), 1749ae8c6e27Sflorian * The value may be too small if a very large TTL was used. */ 1750ae8c6e27Sflorian time_t exceeded = check_holddown(env, anchor, env->cfg->add_holddown); 1751ae8c6e27Sflorian if (exceeded && anchor->s == AUTR_STATE_ADDPEND) { 1752ae8c6e27Sflorian verbose_key(anchor, VERB_ALGO, "add-holddown time exceeded " 1753ae8c6e27Sflorian ARG_LL "d seconds ago, and pending-count %d", 1754ae8c6e27Sflorian (long long)exceeded, anchor->pending_count); 1755ae8c6e27Sflorian if(anchor->pending_count >= MIN_PENDINGCOUNT) { 1756ae8c6e27Sflorian set_trustanchor_state(env, anchor, c, AUTR_STATE_VALID); 1757ae8c6e27Sflorian anchor->pending_count = 0; 1758ae8c6e27Sflorian return; 1759ae8c6e27Sflorian } 1760ae8c6e27Sflorian verbose_key(anchor, VERB_ALGO, "add-holddown time sanity check " 1761ae8c6e27Sflorian "failed (pending count: %d)", anchor->pending_count); 1762ae8c6e27Sflorian } 1763ae8c6e27Sflorian } 1764ae8c6e27Sflorian 1765ae8c6e27Sflorian /** Event: RemTime */ 1766ae8c6e27Sflorian static void 1767ae8c6e27Sflorian do_remtime(struct module_env* env, struct autr_ta* anchor, int* c) 1768ae8c6e27Sflorian { 1769ae8c6e27Sflorian time_t exceeded = check_holddown(env, anchor, env->cfg->del_holddown); 1770ae8c6e27Sflorian if(exceeded && anchor->s == AUTR_STATE_REVOKED) { 1771ae8c6e27Sflorian verbose_key(anchor, VERB_ALGO, "del-holddown time exceeded " 1772ae8c6e27Sflorian ARG_LL "d seconds ago", (long long)exceeded); 1773ae8c6e27Sflorian set_trustanchor_state(env, anchor, c, AUTR_STATE_REMOVED); 1774ae8c6e27Sflorian } 1775ae8c6e27Sflorian } 1776ae8c6e27Sflorian 1777ae8c6e27Sflorian /** Event: KeyRem */ 1778ae8c6e27Sflorian static void 1779ae8c6e27Sflorian do_keyrem(struct module_env* env, struct autr_ta* anchor, int* c) 1780ae8c6e27Sflorian { 1781ae8c6e27Sflorian if(anchor->s == AUTR_STATE_ADDPEND) { 1782ae8c6e27Sflorian set_trustanchor_state(env, anchor, c, AUTR_STATE_START); 1783ae8c6e27Sflorian anchor->pending_count = 0; 1784ae8c6e27Sflorian } else if(anchor->s == AUTR_STATE_VALID) 1785ae8c6e27Sflorian set_trustanchor_state(env, anchor, c, AUTR_STATE_MISSING); 1786ae8c6e27Sflorian } 1787ae8c6e27Sflorian 1788ae8c6e27Sflorian /** Event: KeyPres */ 1789ae8c6e27Sflorian static void 1790ae8c6e27Sflorian do_keypres(struct module_env* env, struct autr_ta* anchor, int* c) 1791ae8c6e27Sflorian { 1792ae8c6e27Sflorian if(anchor->s == AUTR_STATE_MISSING) 1793ae8c6e27Sflorian set_trustanchor_state(env, anchor, c, AUTR_STATE_VALID); 1794ae8c6e27Sflorian } 1795ae8c6e27Sflorian 1796ae8c6e27Sflorian /* Event: Revoked */ 1797ae8c6e27Sflorian static void 1798ae8c6e27Sflorian do_revoked(struct module_env* env, struct autr_ta* anchor, int* c) 1799ae8c6e27Sflorian { 1800ae8c6e27Sflorian if(anchor->s == AUTR_STATE_VALID || anchor->s == AUTR_STATE_MISSING) { 1801ae8c6e27Sflorian set_trustanchor_state(env, anchor, c, AUTR_STATE_REVOKED); 1802ae8c6e27Sflorian verbose_key(anchor, VERB_ALGO, "old id, prior to revocation"); 1803ae8c6e27Sflorian revoke_dnskey(anchor, 0); 1804ae8c6e27Sflorian verbose_key(anchor, VERB_ALGO, "new id, after revocation"); 1805ae8c6e27Sflorian } 1806ae8c6e27Sflorian } 1807ae8c6e27Sflorian 1808ae8c6e27Sflorian /** Do statestable transition matrix for anchor */ 1809ae8c6e27Sflorian static void 1810ae8c6e27Sflorian anchor_state_update(struct module_env* env, struct autr_ta* anchor, int* c) 1811ae8c6e27Sflorian { 1812ae8c6e27Sflorian log_assert(anchor); 1813ae8c6e27Sflorian switch(anchor->s) { 1814ae8c6e27Sflorian /* START */ 1815ae8c6e27Sflorian case AUTR_STATE_START: 1816ae8c6e27Sflorian /* NewKey: ADDPEND */ 1817ae8c6e27Sflorian if (anchor->fetched) 1818ae8c6e27Sflorian do_newkey(env, anchor, c); 1819ae8c6e27Sflorian break; 1820ae8c6e27Sflorian /* ADDPEND */ 1821ae8c6e27Sflorian case AUTR_STATE_ADDPEND: 1822ae8c6e27Sflorian /* KeyRem: START */ 1823ae8c6e27Sflorian if (!anchor->fetched) 1824ae8c6e27Sflorian do_keyrem(env, anchor, c); 1825ae8c6e27Sflorian /* AddTime: VALID */ 1826ae8c6e27Sflorian else do_addtime(env, anchor, c); 1827ae8c6e27Sflorian break; 1828ae8c6e27Sflorian /* VALID */ 1829ae8c6e27Sflorian case AUTR_STATE_VALID: 1830ae8c6e27Sflorian /* RevBit: REVOKED */ 1831ae8c6e27Sflorian if (anchor->revoked) 1832ae8c6e27Sflorian do_revoked(env, anchor, c); 1833ae8c6e27Sflorian /* KeyRem: MISSING */ 1834ae8c6e27Sflorian else if (!anchor->fetched) 1835ae8c6e27Sflorian do_keyrem(env, anchor, c); 1836ae8c6e27Sflorian else if(!anchor->last_change) { 1837ae8c6e27Sflorian verbose_key(anchor, VERB_ALGO, "first seen"); 1838ae8c6e27Sflorian reset_holddown(env, anchor, c); 1839ae8c6e27Sflorian } 1840ae8c6e27Sflorian break; 1841ae8c6e27Sflorian /* MISSING */ 1842ae8c6e27Sflorian case AUTR_STATE_MISSING: 1843ae8c6e27Sflorian /* RevBit: REVOKED */ 1844ae8c6e27Sflorian if (anchor->revoked) 1845ae8c6e27Sflorian do_revoked(env, anchor, c); 1846ae8c6e27Sflorian /* KeyPres */ 1847ae8c6e27Sflorian else if (anchor->fetched) 1848ae8c6e27Sflorian do_keypres(env, anchor, c); 1849ae8c6e27Sflorian break; 1850ae8c6e27Sflorian /* REVOKED */ 1851ae8c6e27Sflorian case AUTR_STATE_REVOKED: 1852ae8c6e27Sflorian if (anchor->fetched) 1853ae8c6e27Sflorian reset_holddown(env, anchor, c); 1854ae8c6e27Sflorian /* RemTime: REMOVED */ 1855ae8c6e27Sflorian else do_remtime(env, anchor, c); 1856ae8c6e27Sflorian break; 1857ae8c6e27Sflorian /* REMOVED */ 1858ae8c6e27Sflorian case AUTR_STATE_REMOVED: 1859ae8c6e27Sflorian default: 1860ae8c6e27Sflorian break; 1861ae8c6e27Sflorian } 1862ae8c6e27Sflorian } 1863ae8c6e27Sflorian 1864ae8c6e27Sflorian /** if ZSK init then trust KSKs */ 1865ae8c6e27Sflorian static int 1866ae8c6e27Sflorian init_zsk_to_ksk(struct module_env* env, struct trust_anchor* tp, int* changed) 1867ae8c6e27Sflorian { 1868ae8c6e27Sflorian /* search for VALID ZSKs */ 1869ae8c6e27Sflorian struct autr_ta* anchor; 1870ae8c6e27Sflorian int validzsk = 0; 1871ae8c6e27Sflorian int validksk = 0; 1872ae8c6e27Sflorian for(anchor = tp->autr->keys; anchor; anchor = anchor->next) { 1873ae8c6e27Sflorian /* last_change test makes sure it was manually configured */ 1874ae8c6e27Sflorian if(sldns_wirerr_get_type(anchor->rr, anchor->rr_len, 1875ae8c6e27Sflorian anchor->dname_len) == LDNS_RR_TYPE_DNSKEY && 1876ae8c6e27Sflorian anchor->last_change == 0 && 1877ae8c6e27Sflorian !ta_is_dnskey_sep(anchor) && 1878ae8c6e27Sflorian anchor->s == AUTR_STATE_VALID) 1879ae8c6e27Sflorian validzsk++; 1880ae8c6e27Sflorian } 1881ae8c6e27Sflorian if(validzsk == 0) 1882ae8c6e27Sflorian return 0; 1883ae8c6e27Sflorian for(anchor = tp->autr->keys; anchor; anchor = anchor->next) { 1884ae8c6e27Sflorian if (ta_is_dnskey_sep(anchor) && 1885ae8c6e27Sflorian anchor->s == AUTR_STATE_ADDPEND) { 1886ae8c6e27Sflorian verbose_key(anchor, VERB_ALGO, "trust KSK from " 1887ae8c6e27Sflorian "ZSK(config)"); 1888ae8c6e27Sflorian set_trustanchor_state(env, anchor, changed, 1889ae8c6e27Sflorian AUTR_STATE_VALID); 1890ae8c6e27Sflorian validksk++; 1891ae8c6e27Sflorian } 1892ae8c6e27Sflorian } 1893ae8c6e27Sflorian return validksk; 1894ae8c6e27Sflorian } 1895ae8c6e27Sflorian 1896ae8c6e27Sflorian /** Remove missing trustanchors so the list does not grow forever */ 1897ae8c6e27Sflorian static void 1898ae8c6e27Sflorian remove_missing_trustanchors(struct module_env* env, struct trust_anchor* tp, 1899ae8c6e27Sflorian int* changed) 1900ae8c6e27Sflorian { 1901ae8c6e27Sflorian struct autr_ta* anchor; 1902ae8c6e27Sflorian time_t exceeded; 1903ae8c6e27Sflorian int valid = 0; 1904ae8c6e27Sflorian /* see if we have anchors that are valid */ 1905ae8c6e27Sflorian for(anchor = tp->autr->keys; anchor; anchor = anchor->next) { 1906ae8c6e27Sflorian /* Only do KSKs */ 1907ae8c6e27Sflorian if (!ta_is_dnskey_sep(anchor)) 1908ae8c6e27Sflorian continue; 1909ae8c6e27Sflorian if (anchor->s == AUTR_STATE_VALID) 1910ae8c6e27Sflorian valid++; 1911ae8c6e27Sflorian } 1912ae8c6e27Sflorian /* if there are no SEP Valid anchors, see if we started out with 1913ae8c6e27Sflorian * a ZSK (last-change=0) anchor, which is VALID and there are KSKs 1914ae8c6e27Sflorian * now that can be made valid. Do this immediately because there 1915ae8c6e27Sflorian * is no guarantee that the ZSKs get announced long enough. Usually 1916ae8c6e27Sflorian * this is immediately after init with a ZSK trusted, unless the domain 1917ae8c6e27Sflorian * was not advertising any KSKs at all. In which case we perfectly 1918ae8c6e27Sflorian * track the zero number of KSKs. */ 1919ae8c6e27Sflorian if(valid == 0) { 1920ae8c6e27Sflorian valid = init_zsk_to_ksk(env, tp, changed); 1921ae8c6e27Sflorian if(valid == 0) 1922ae8c6e27Sflorian return; 1923ae8c6e27Sflorian } 1924ae8c6e27Sflorian 1925ae8c6e27Sflorian for(anchor = tp->autr->keys; anchor; anchor = anchor->next) { 1926ae8c6e27Sflorian /* ignore ZSKs if newly added */ 1927ae8c6e27Sflorian if(anchor->s == AUTR_STATE_START) 1928ae8c6e27Sflorian continue; 1929ae8c6e27Sflorian /* remove ZSKs if a KSK is present */ 1930ae8c6e27Sflorian if (!ta_is_dnskey_sep(anchor)) { 1931ae8c6e27Sflorian if(valid > 0) { 1932ae8c6e27Sflorian verbose_key(anchor, VERB_ALGO, "remove ZSK " 1933ae8c6e27Sflorian "[%d key(s) VALID]", valid); 1934ae8c6e27Sflorian set_trustanchor_state(env, anchor, changed, 1935ae8c6e27Sflorian AUTR_STATE_REMOVED); 1936ae8c6e27Sflorian } 1937ae8c6e27Sflorian continue; 1938ae8c6e27Sflorian } 1939ae8c6e27Sflorian /* Only do MISSING keys */ 1940ae8c6e27Sflorian if (anchor->s != AUTR_STATE_MISSING) 1941ae8c6e27Sflorian continue; 1942ae8c6e27Sflorian if(env->cfg->keep_missing == 0) 1943ae8c6e27Sflorian continue; /* keep forever */ 1944ae8c6e27Sflorian 1945ae8c6e27Sflorian exceeded = check_holddown(env, anchor, env->cfg->keep_missing); 1946ae8c6e27Sflorian /* If keep_missing has exceeded and we still have more than 1947ae8c6e27Sflorian * one valid KSK: remove missing trust anchor */ 1948ae8c6e27Sflorian if (exceeded && valid > 0) { 1949ae8c6e27Sflorian verbose_key(anchor, VERB_ALGO, "keep-missing time " 1950ae8c6e27Sflorian "exceeded " ARG_LL "d seconds ago, [%d key(s) VALID]", 1951ae8c6e27Sflorian (long long)exceeded, valid); 1952ae8c6e27Sflorian set_trustanchor_state(env, anchor, changed, 1953ae8c6e27Sflorian AUTR_STATE_REMOVED); 1954ae8c6e27Sflorian } 1955ae8c6e27Sflorian } 1956ae8c6e27Sflorian } 1957ae8c6e27Sflorian 1958ae8c6e27Sflorian /** Do the statetable from RFC5011 transition matrix */ 1959ae8c6e27Sflorian static int 1960ae8c6e27Sflorian do_statetable(struct module_env* env, struct trust_anchor* tp, int* changed) 1961ae8c6e27Sflorian { 1962ae8c6e27Sflorian struct autr_ta* anchor; 1963ae8c6e27Sflorian for(anchor = tp->autr->keys; anchor; anchor = anchor->next) { 1964ae8c6e27Sflorian /* Only do KSKs */ 1965ae8c6e27Sflorian if(!ta_is_dnskey_sep(anchor)) 1966ae8c6e27Sflorian continue; 1967ae8c6e27Sflorian anchor_state_update(env, anchor, changed); 1968ae8c6e27Sflorian } 1969ae8c6e27Sflorian remove_missing_trustanchors(env, tp, changed); 1970ae8c6e27Sflorian return 1; 1971ae8c6e27Sflorian } 1972ae8c6e27Sflorian 1973ae8c6e27Sflorian /** See if time alone makes ADDPEND to VALID transition */ 1974ae8c6e27Sflorian static void 1975ae8c6e27Sflorian autr_holddown_exceed(struct module_env* env, struct trust_anchor* tp, int* c) 1976ae8c6e27Sflorian { 1977ae8c6e27Sflorian struct autr_ta* anchor; 1978ae8c6e27Sflorian for(anchor = tp->autr->keys; anchor; anchor = anchor->next) { 1979ae8c6e27Sflorian if(ta_is_dnskey_sep(anchor) && 1980ae8c6e27Sflorian anchor->s == AUTR_STATE_ADDPEND) 1981ae8c6e27Sflorian do_addtime(env, anchor, c); 1982ae8c6e27Sflorian } 1983ae8c6e27Sflorian } 1984ae8c6e27Sflorian 1985ae8c6e27Sflorian /** cleanup key list */ 1986ae8c6e27Sflorian static void 1987ae8c6e27Sflorian autr_cleanup_keys(struct trust_anchor* tp) 1988ae8c6e27Sflorian { 1989ae8c6e27Sflorian struct autr_ta* p, **prevp; 1990ae8c6e27Sflorian prevp = &tp->autr->keys; 1991ae8c6e27Sflorian p = tp->autr->keys; 1992ae8c6e27Sflorian while(p) { 1993ae8c6e27Sflorian /* do we want to remove this key? */ 1994ae8c6e27Sflorian if(p->s == AUTR_STATE_START || p->s == AUTR_STATE_REMOVED || 1995ae8c6e27Sflorian sldns_wirerr_get_type(p->rr, p->rr_len, p->dname_len) 1996ae8c6e27Sflorian != LDNS_RR_TYPE_DNSKEY) { 1997ae8c6e27Sflorian struct autr_ta* np = p->next; 1998ae8c6e27Sflorian /* remove */ 1999ae8c6e27Sflorian free(p->rr); 2000ae8c6e27Sflorian free(p); 2001ae8c6e27Sflorian /* snip and go to next item */ 2002ae8c6e27Sflorian *prevp = np; 2003ae8c6e27Sflorian p = np; 2004ae8c6e27Sflorian continue; 2005ae8c6e27Sflorian } 2006ae8c6e27Sflorian /* remove pending counts if no longer pending */ 2007ae8c6e27Sflorian if(p->s != AUTR_STATE_ADDPEND) 2008ae8c6e27Sflorian p->pending_count = 0; 2009ae8c6e27Sflorian prevp = &p->next; 2010ae8c6e27Sflorian p = p->next; 2011ae8c6e27Sflorian } 2012ae8c6e27Sflorian } 2013ae8c6e27Sflorian 2014ae8c6e27Sflorian /** calculate next probe time */ 2015ae8c6e27Sflorian static time_t 2016ae8c6e27Sflorian calc_next_probe(struct module_env* env, time_t wait) 2017ae8c6e27Sflorian { 2018ae8c6e27Sflorian /* make it random, 90-100% */ 2019ae8c6e27Sflorian time_t rnd, rest; 2020ae8c6e27Sflorian if(!autr_permit_small_holddown) { 2021ae8c6e27Sflorian if(wait < 3600) 2022ae8c6e27Sflorian wait = 3600; 2023ae8c6e27Sflorian } else { 2024ae8c6e27Sflorian if(wait == 0) wait = 1; 2025ae8c6e27Sflorian } 2026ae8c6e27Sflorian rnd = wait/10; 2027ae8c6e27Sflorian rest = wait-rnd; 2028ae8c6e27Sflorian rnd = (time_t)ub_random_max(env->rnd, (long int)rnd); 2029ae8c6e27Sflorian return (time_t)(*env->now + rest + rnd); 2030ae8c6e27Sflorian } 2031ae8c6e27Sflorian 2032ae8c6e27Sflorian /** what is first probe time (anchors must be locked) */ 2033ae8c6e27Sflorian static time_t 2034ae8c6e27Sflorian wait_probe_time(struct val_anchors* anchors) 2035ae8c6e27Sflorian { 2036ae8c6e27Sflorian rbnode_type* t = rbtree_first(&anchors->autr->probe); 2037ae8c6e27Sflorian if(t != RBTREE_NULL) 2038ae8c6e27Sflorian return ((struct trust_anchor*)t->key)->autr->next_probe_time; 2039ae8c6e27Sflorian return 0; 2040ae8c6e27Sflorian } 2041ae8c6e27Sflorian 2042ae8c6e27Sflorian /** reset worker timer */ 2043ae8c6e27Sflorian static void 2044ae8c6e27Sflorian reset_worker_timer(struct module_env* env) 2045ae8c6e27Sflorian { 2046ae8c6e27Sflorian struct timeval tv; 2047ae8c6e27Sflorian #ifndef S_SPLINT_S 2048ae8c6e27Sflorian time_t next = (time_t)wait_probe_time(env->anchors); 2049ae8c6e27Sflorian /* in case this is libunbound, no timer */ 2050ae8c6e27Sflorian if(!env->probe_timer) 2051ae8c6e27Sflorian return; 2052ae8c6e27Sflorian if(next > *env->now) 2053ae8c6e27Sflorian tv.tv_sec = (time_t)(next - *env->now); 2054ae8c6e27Sflorian else tv.tv_sec = 0; 2055ae8c6e27Sflorian #endif 2056ae8c6e27Sflorian tv.tv_usec = 0; 2057ae8c6e27Sflorian comm_timer_set(env->probe_timer, &tv); 2058ae8c6e27Sflorian verbose(VERB_ALGO, "scheduled next probe in " ARG_LL "d sec", (long long)tv.tv_sec); 2059ae8c6e27Sflorian } 2060ae8c6e27Sflorian 2061ae8c6e27Sflorian /** set next probe for trust anchor */ 2062ae8c6e27Sflorian static int 2063ae8c6e27Sflorian set_next_probe(struct module_env* env, struct trust_anchor* tp, 2064ae8c6e27Sflorian struct ub_packed_rrset_key* dnskey_rrset) 2065ae8c6e27Sflorian { 2066ae8c6e27Sflorian struct trust_anchor key, *tp2; 2067ae8c6e27Sflorian time_t mold, mnew; 2068ae8c6e27Sflorian /* use memory allocated in rrset for temporary name storage */ 2069ae8c6e27Sflorian key.node.key = &key; 2070ae8c6e27Sflorian key.name = dnskey_rrset->rk.dname; 2071ae8c6e27Sflorian key.namelen = dnskey_rrset->rk.dname_len; 2072ae8c6e27Sflorian key.namelabs = dname_count_labels(key.name); 2073ae8c6e27Sflorian key.dclass = tp->dclass; 2074ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 2075ae8c6e27Sflorian 2076ae8c6e27Sflorian /* fetch tp again and lock anchors, so that we can modify the trees */ 2077ae8c6e27Sflorian lock_basic_lock(&env->anchors->lock); 2078ae8c6e27Sflorian tp2 = (struct trust_anchor*)rbtree_search(env->anchors->tree, &key); 2079ae8c6e27Sflorian if(!tp2) { 2080ae8c6e27Sflorian verbose(VERB_ALGO, "trustpoint was deleted in set_next_probe"); 2081ae8c6e27Sflorian lock_basic_unlock(&env->anchors->lock); 2082ae8c6e27Sflorian return 0; 2083ae8c6e27Sflorian } 2084ae8c6e27Sflorian log_assert(tp == tp2); 2085ae8c6e27Sflorian lock_basic_lock(&tp->lock); 2086ae8c6e27Sflorian 2087ae8c6e27Sflorian /* schedule */ 2088ae8c6e27Sflorian mold = wait_probe_time(env->anchors); 2089ae8c6e27Sflorian (void)rbtree_delete(&env->anchors->autr->probe, tp); 2090ae8c6e27Sflorian tp->autr->next_probe_time = calc_next_probe(env, 2091ae8c6e27Sflorian tp->autr->query_interval); 2092ae8c6e27Sflorian (void)rbtree_insert(&env->anchors->autr->probe, &tp->autr->pnode); 2093ae8c6e27Sflorian mnew = wait_probe_time(env->anchors); 2094ae8c6e27Sflorian 2095ae8c6e27Sflorian lock_basic_unlock(&env->anchors->lock); 2096ae8c6e27Sflorian verbose(VERB_ALGO, "next probe set in %d seconds", 2097ae8c6e27Sflorian (int)tp->autr->next_probe_time - (int)*env->now); 2098ae8c6e27Sflorian if(mold != mnew) { 2099ae8c6e27Sflorian reset_worker_timer(env); 2100ae8c6e27Sflorian } 2101ae8c6e27Sflorian return 1; 2102ae8c6e27Sflorian } 2103ae8c6e27Sflorian 2104ae8c6e27Sflorian /** Revoke and Delete a trust point */ 2105ae8c6e27Sflorian static void 2106ae8c6e27Sflorian autr_tp_remove(struct module_env* env, struct trust_anchor* tp, 2107ae8c6e27Sflorian struct ub_packed_rrset_key* dnskey_rrset) 2108ae8c6e27Sflorian { 2109ae8c6e27Sflorian struct trust_anchor* del_tp; 2110ae8c6e27Sflorian struct trust_anchor key; 2111ae8c6e27Sflorian struct autr_point_data pd; 2112ae8c6e27Sflorian time_t mold, mnew; 2113ae8c6e27Sflorian 2114ae8c6e27Sflorian log_nametypeclass(VERB_OPS, "trust point was revoked", 2115ae8c6e27Sflorian tp->name, LDNS_RR_TYPE_DNSKEY, tp->dclass); 2116ae8c6e27Sflorian tp->autr->revoked = 1; 2117ae8c6e27Sflorian 2118ae8c6e27Sflorian /* use space allocated for dnskey_rrset to save name of anchor */ 2119ae8c6e27Sflorian memset(&key, 0, sizeof(key)); 2120ae8c6e27Sflorian memset(&pd, 0, sizeof(pd)); 2121ae8c6e27Sflorian key.autr = &pd; 2122ae8c6e27Sflorian key.node.key = &key; 2123ae8c6e27Sflorian pd.pnode.key = &key; 2124ae8c6e27Sflorian pd.next_probe_time = tp->autr->next_probe_time; 2125ae8c6e27Sflorian key.name = dnskey_rrset->rk.dname; 2126ae8c6e27Sflorian key.namelen = tp->namelen; 2127ae8c6e27Sflorian key.namelabs = tp->namelabs; 2128ae8c6e27Sflorian key.dclass = tp->dclass; 2129ae8c6e27Sflorian 2130ae8c6e27Sflorian /* unlock */ 2131ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 2132ae8c6e27Sflorian 2133ae8c6e27Sflorian /* take from tree. It could be deleted by someone else,hence (void). */ 2134ae8c6e27Sflorian lock_basic_lock(&env->anchors->lock); 2135ae8c6e27Sflorian del_tp = (struct trust_anchor*)rbtree_delete(env->anchors->tree, &key); 2136ae8c6e27Sflorian mold = wait_probe_time(env->anchors); 2137ae8c6e27Sflorian (void)rbtree_delete(&env->anchors->autr->probe, &key); 2138ae8c6e27Sflorian mnew = wait_probe_time(env->anchors); 2139ae8c6e27Sflorian anchors_init_parents_locked(env->anchors); 2140ae8c6e27Sflorian lock_basic_unlock(&env->anchors->lock); 2141ae8c6e27Sflorian 2142ae8c6e27Sflorian /* if !del_tp then the trust point is no longer present in the tree, 2143ae8c6e27Sflorian * it was deleted by someone else, who will write the zonefile and 2144ae8c6e27Sflorian * clean up the structure */ 2145ae8c6e27Sflorian if(del_tp) { 2146ae8c6e27Sflorian /* save on disk */ 2147ae8c6e27Sflorian del_tp->autr->next_probe_time = 0; /* no more probing for it */ 2148ae8c6e27Sflorian autr_write_file(env, del_tp); 2149ae8c6e27Sflorian 2150ae8c6e27Sflorian /* delete */ 2151ae8c6e27Sflorian autr_point_delete(del_tp); 2152ae8c6e27Sflorian } 2153ae8c6e27Sflorian if(mold != mnew) { 2154ae8c6e27Sflorian reset_worker_timer(env); 2155ae8c6e27Sflorian } 2156ae8c6e27Sflorian } 2157ae8c6e27Sflorian 2158ae8c6e27Sflorian int autr_process_prime(struct module_env* env, struct val_env* ve, 2159ae8c6e27Sflorian struct trust_anchor* tp, struct ub_packed_rrset_key* dnskey_rrset, 2160ae8c6e27Sflorian struct module_qstate* qstate) 2161ae8c6e27Sflorian { 2162ae8c6e27Sflorian int changed = 0; 2163ae8c6e27Sflorian log_assert(tp && tp->autr); 2164ae8c6e27Sflorian /* autotrust update trust anchors */ 2165ae8c6e27Sflorian /* the tp is locked, and stays locked unless it is deleted */ 2166ae8c6e27Sflorian 2167ae8c6e27Sflorian /* we could just catch the anchor here while another thread 2168ae8c6e27Sflorian * is busy deleting it. Just unlock and let the other do its job */ 2169ae8c6e27Sflorian if(tp->autr->revoked) { 2170ae8c6e27Sflorian log_nametypeclass(VERB_ALGO, "autotrust not processed, " 2171ae8c6e27Sflorian "trust point revoked", tp->name, 2172ae8c6e27Sflorian LDNS_RR_TYPE_DNSKEY, tp->dclass); 2173ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 2174ae8c6e27Sflorian return 0; /* it is revoked */ 2175ae8c6e27Sflorian } 2176ae8c6e27Sflorian 2177ae8c6e27Sflorian /* query_dnskeys(): */ 2178ae8c6e27Sflorian tp->autr->last_queried = *env->now; 2179ae8c6e27Sflorian 2180ae8c6e27Sflorian log_nametypeclass(VERB_ALGO, "autotrust process for", 2181ae8c6e27Sflorian tp->name, LDNS_RR_TYPE_DNSKEY, tp->dclass); 2182ae8c6e27Sflorian /* see if time alone makes some keys valid */ 2183ae8c6e27Sflorian autr_holddown_exceed(env, tp, &changed); 2184ae8c6e27Sflorian if(changed) { 2185ae8c6e27Sflorian verbose(VERB_ALGO, "autotrust: morekeys, reassemble"); 2186ae8c6e27Sflorian if(!autr_assemble(tp)) { 2187ae8c6e27Sflorian log_err("malloc failure assembling autotrust keys"); 2188ae8c6e27Sflorian return 1; /* unchanged */ 2189ae8c6e27Sflorian } 2190ae8c6e27Sflorian } 2191ae8c6e27Sflorian /* did we get any data? */ 2192ae8c6e27Sflorian if(!dnskey_rrset) { 2193ae8c6e27Sflorian verbose(VERB_ALGO, "autotrust: no dnskey rrset"); 2194ae8c6e27Sflorian /* no update of query_failed, because then we would have 2195ae8c6e27Sflorian * to write to disk. But we cannot because we maybe are 2196ae8c6e27Sflorian * still 'initializing' with DS records, that we cannot write 2197ae8c6e27Sflorian * in the full format (which only contains KSKs). */ 2198ae8c6e27Sflorian return 1; /* trust point exists */ 2199ae8c6e27Sflorian } 2200ae8c6e27Sflorian /* check for revoked keys to remove immediately */ 2201ae8c6e27Sflorian check_contains_revoked(env, ve, tp, dnskey_rrset, &changed, qstate); 2202ae8c6e27Sflorian if(changed) { 2203ae8c6e27Sflorian verbose(VERB_ALGO, "autotrust: revokedkeys, reassemble"); 2204ae8c6e27Sflorian if(!autr_assemble(tp)) { 2205ae8c6e27Sflorian log_err("malloc failure assembling autotrust keys"); 2206ae8c6e27Sflorian return 1; /* unchanged */ 2207ae8c6e27Sflorian } 2208ae8c6e27Sflorian if(!tp->ds_rrset && !tp->dnskey_rrset) { 2209ae8c6e27Sflorian /* no more keys, all are revoked */ 2210ae8c6e27Sflorian /* this is a success for this probe attempt */ 2211ae8c6e27Sflorian tp->autr->last_success = *env->now; 2212ae8c6e27Sflorian autr_tp_remove(env, tp, dnskey_rrset); 2213ae8c6e27Sflorian return 0; /* trust point removed */ 2214ae8c6e27Sflorian } 2215ae8c6e27Sflorian } 2216ae8c6e27Sflorian /* verify the dnskey rrset and see if it is valid. */ 2217ae8c6e27Sflorian if(!verify_dnskey(env, ve, tp, dnskey_rrset, qstate)) { 2218ae8c6e27Sflorian verbose(VERB_ALGO, "autotrust: dnskey did not verify."); 2219ae8c6e27Sflorian /* only increase failure count if this is not the first prime, 2220ae8c6e27Sflorian * this means there was a previous successful probe */ 2221ae8c6e27Sflorian if(tp->autr->last_success) { 2222ae8c6e27Sflorian tp->autr->query_failed += 1; 2223ae8c6e27Sflorian autr_write_file(env, tp); 2224ae8c6e27Sflorian } 2225ae8c6e27Sflorian return 1; /* trust point exists */ 2226ae8c6e27Sflorian } 2227ae8c6e27Sflorian 2228ae8c6e27Sflorian tp->autr->last_success = *env->now; 2229ae8c6e27Sflorian tp->autr->query_failed = 0; 2230ae8c6e27Sflorian 2231ae8c6e27Sflorian /* Add new trust anchors to the data structure 2232ae8c6e27Sflorian * - note which trust anchors are seen this probe. 2233ae8c6e27Sflorian * Set trustpoint query_interval and retry_time. 2234ae8c6e27Sflorian * - find minimum rrsig expiration interval 2235ae8c6e27Sflorian */ 2236ae8c6e27Sflorian if(!update_events(env, ve, tp, dnskey_rrset, &changed)) { 2237ae8c6e27Sflorian log_err("malloc failure in autotrust update_events. " 2238ae8c6e27Sflorian "trust point unchanged."); 2239ae8c6e27Sflorian return 1; /* trust point unchanged, so exists */ 2240ae8c6e27Sflorian } 2241ae8c6e27Sflorian 2242ae8c6e27Sflorian /* - for every SEP key do the 5011 statetable. 2243ae8c6e27Sflorian * - remove missing trustanchors (if veryold and we have new anchors). 2244ae8c6e27Sflorian */ 2245ae8c6e27Sflorian if(!do_statetable(env, tp, &changed)) { 2246ae8c6e27Sflorian log_err("malloc failure in autotrust do_statetable. " 2247ae8c6e27Sflorian "trust point unchanged."); 2248ae8c6e27Sflorian return 1; /* trust point unchanged, so exists */ 2249ae8c6e27Sflorian } 2250ae8c6e27Sflorian 2251ae8c6e27Sflorian autr_cleanup_keys(tp); 2252ae8c6e27Sflorian if(!set_next_probe(env, tp, dnskey_rrset)) 2253ae8c6e27Sflorian return 0; /* trust point does not exist */ 2254ae8c6e27Sflorian autr_write_file(env, tp); 2255ae8c6e27Sflorian if(changed) { 2256ae8c6e27Sflorian verbose(VERB_ALGO, "autotrust: changed, reassemble"); 2257ae8c6e27Sflorian if(!autr_assemble(tp)) { 2258ae8c6e27Sflorian log_err("malloc failure assembling autotrust keys"); 2259ae8c6e27Sflorian return 1; /* unchanged */ 2260ae8c6e27Sflorian } 2261ae8c6e27Sflorian if(!tp->ds_rrset && !tp->dnskey_rrset) { 2262ae8c6e27Sflorian /* no more keys, all are revoked */ 2263ae8c6e27Sflorian autr_tp_remove(env, tp, dnskey_rrset); 2264ae8c6e27Sflorian return 0; /* trust point removed */ 2265ae8c6e27Sflorian } 2266ae8c6e27Sflorian } else verbose(VERB_ALGO, "autotrust: no changes"); 2267ae8c6e27Sflorian 2268ae8c6e27Sflorian return 1; /* trust point exists */ 2269ae8c6e27Sflorian } 2270ae8c6e27Sflorian 2271ae8c6e27Sflorian /** debug print a trust anchor key */ 2272ae8c6e27Sflorian static void 2273ae8c6e27Sflorian autr_debug_print_ta(struct autr_ta* ta) 2274ae8c6e27Sflorian { 2275ae8c6e27Sflorian char buf[32]; 2276ae8c6e27Sflorian char* str = sldns_wire2str_rr(ta->rr, ta->rr_len); 2277ae8c6e27Sflorian if(!str) { 2278ae8c6e27Sflorian log_info("out of memory in debug_print_ta"); 2279ae8c6e27Sflorian return; 2280ae8c6e27Sflorian } 228157403691Sflorian if(str[0]) str[strlen(str)-1]=0; /* remove newline */ 2282411c5950Sflorian (void)autr_ctime_r(&ta->last_change, buf); 2283ae8c6e27Sflorian if(buf[0]) buf[strlen(buf)-1]=0; /* remove newline */ 2284ae8c6e27Sflorian log_info("[%s] %s ;;state:%d ;;pending_count:%d%s%s last:%s", 2285ae8c6e27Sflorian trustanchor_state2str(ta->s), str, ta->s, ta->pending_count, 2286ae8c6e27Sflorian ta->fetched?" fetched":"", ta->revoked?" revoked":"", buf); 2287ae8c6e27Sflorian free(str); 2288ae8c6e27Sflorian } 2289ae8c6e27Sflorian 2290ae8c6e27Sflorian /** debug print a trust point */ 2291ae8c6e27Sflorian static void 2292ae8c6e27Sflorian autr_debug_print_tp(struct trust_anchor* tp) 2293ae8c6e27Sflorian { 2294ae8c6e27Sflorian struct autr_ta* ta; 2295ae8c6e27Sflorian char buf[257]; 2296ae8c6e27Sflorian if(!tp->autr) 2297ae8c6e27Sflorian return; 2298ae8c6e27Sflorian dname_str(tp->name, buf); 2299ae8c6e27Sflorian log_info("trust point %s : %d", buf, (int)tp->dclass); 2300ae8c6e27Sflorian log_info("assembled %d DS and %d DNSKEYs", 2301ae8c6e27Sflorian (int)tp->numDS, (int)tp->numDNSKEY); 2302ae8c6e27Sflorian if(tp->ds_rrset) { 230357403691Sflorian log_packed_rrset(NO_VERBOSE, "DS:", tp->ds_rrset); 2304ae8c6e27Sflorian } 2305ae8c6e27Sflorian if(tp->dnskey_rrset) { 230657403691Sflorian log_packed_rrset(NO_VERBOSE, "DNSKEY:", tp->dnskey_rrset); 2307ae8c6e27Sflorian } 2308ae8c6e27Sflorian log_info("file %s", tp->autr->file); 2309411c5950Sflorian (void)autr_ctime_r(&tp->autr->last_queried, buf); 2310ae8c6e27Sflorian if(buf[0]) buf[strlen(buf)-1]=0; /* remove newline */ 2311ae8c6e27Sflorian log_info("last_queried: %u %s", (unsigned)tp->autr->last_queried, buf); 2312411c5950Sflorian (void)autr_ctime_r(&tp->autr->last_success, buf); 2313ae8c6e27Sflorian if(buf[0]) buf[strlen(buf)-1]=0; /* remove newline */ 2314ae8c6e27Sflorian log_info("last_success: %u %s", (unsigned)tp->autr->last_success, buf); 2315411c5950Sflorian (void)autr_ctime_r(&tp->autr->next_probe_time, buf); 2316ae8c6e27Sflorian if(buf[0]) buf[strlen(buf)-1]=0; /* remove newline */ 2317ae8c6e27Sflorian log_info("next_probe_time: %u %s", (unsigned)tp->autr->next_probe_time, 2318ae8c6e27Sflorian buf); 2319ae8c6e27Sflorian log_info("query_interval: %u", (unsigned)tp->autr->query_interval); 2320ae8c6e27Sflorian log_info("retry_time: %u", (unsigned)tp->autr->retry_time); 2321ae8c6e27Sflorian log_info("query_failed: %u", (unsigned)tp->autr->query_failed); 2322ae8c6e27Sflorian 2323ae8c6e27Sflorian for(ta=tp->autr->keys; ta; ta=ta->next) { 2324ae8c6e27Sflorian autr_debug_print_ta(ta); 2325ae8c6e27Sflorian } 2326ae8c6e27Sflorian } 2327ae8c6e27Sflorian 2328ae8c6e27Sflorian void 2329ae8c6e27Sflorian autr_debug_print(struct val_anchors* anchors) 2330ae8c6e27Sflorian { 2331ae8c6e27Sflorian struct trust_anchor* tp; 2332ae8c6e27Sflorian lock_basic_lock(&anchors->lock); 2333ae8c6e27Sflorian RBTREE_FOR(tp, struct trust_anchor*, anchors->tree) { 2334ae8c6e27Sflorian lock_basic_lock(&tp->lock); 2335ae8c6e27Sflorian autr_debug_print_tp(tp); 2336ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 2337ae8c6e27Sflorian } 2338ae8c6e27Sflorian lock_basic_unlock(&anchors->lock); 2339ae8c6e27Sflorian } 2340ae8c6e27Sflorian 2341ae8c6e27Sflorian void probe_answer_cb(void* arg, int ATTR_UNUSED(rcode), 2342ae8c6e27Sflorian sldns_buffer* ATTR_UNUSED(buf), enum sec_status ATTR_UNUSED(sec), 2343ae8c6e27Sflorian char* ATTR_UNUSED(why_bogus), int ATTR_UNUSED(was_ratelimited)) 2344ae8c6e27Sflorian { 2345ae8c6e27Sflorian /* retry was set before the query was done, 2346ae8c6e27Sflorian * re-querytime is set when query succeeded, but that may not 2347ae8c6e27Sflorian * have reset this timer because the query could have been 2348ae8c6e27Sflorian * handled by another thread. In that case, this callback would 2349ae8c6e27Sflorian * get called after the original timeout is done. 2350ae8c6e27Sflorian * By not resetting the timer, it may probe more often, but not 2351ae8c6e27Sflorian * less often. 2352ae8c6e27Sflorian * Unless the new lookup resulted in smaller TTLs and thus smaller 2353ae8c6e27Sflorian * timeout values. In that case one old TTL could be mistakenly done. 2354ae8c6e27Sflorian */ 2355ae8c6e27Sflorian struct module_env* env = (struct module_env*)arg; 2356ae8c6e27Sflorian verbose(VERB_ALGO, "autotrust probe answer cb"); 2357ae8c6e27Sflorian reset_worker_timer(env); 2358ae8c6e27Sflorian } 2359ae8c6e27Sflorian 2360ae8c6e27Sflorian /** probe a trust anchor DNSKEY and unlocks tp */ 2361ae8c6e27Sflorian static void 2362ae8c6e27Sflorian probe_anchor(struct module_env* env, struct trust_anchor* tp) 2363ae8c6e27Sflorian { 2364ae8c6e27Sflorian struct query_info qinfo; 2365ae8c6e27Sflorian uint16_t qflags = BIT_RD; 2366ae8c6e27Sflorian struct edns_data edns; 2367ae8c6e27Sflorian sldns_buffer* buf = env->scratch_buffer; 2368ae8c6e27Sflorian qinfo.qname = regional_alloc_init(env->scratch, tp->name, tp->namelen); 2369ae8c6e27Sflorian if(!qinfo.qname) { 2370ae8c6e27Sflorian log_err("out of memory making 5011 probe"); 2371ae8c6e27Sflorian return; 2372ae8c6e27Sflorian } 2373ae8c6e27Sflorian qinfo.qname_len = tp->namelen; 2374ae8c6e27Sflorian qinfo.qtype = LDNS_RR_TYPE_DNSKEY; 2375ae8c6e27Sflorian qinfo.qclass = tp->dclass; 2376ae8c6e27Sflorian qinfo.local_alias = NULL; 2377ae8c6e27Sflorian log_query_info(VERB_ALGO, "autotrust probe", &qinfo); 2378ae8c6e27Sflorian verbose(VERB_ALGO, "retry probe set in %d seconds", 2379ae8c6e27Sflorian (int)tp->autr->next_probe_time - (int)*env->now); 2380ae8c6e27Sflorian edns.edns_present = 1; 2381ae8c6e27Sflorian edns.ext_rcode = 0; 2382ae8c6e27Sflorian edns.edns_version = 0; 2383ae8c6e27Sflorian edns.bits = EDNS_DO; 2384a1a7ba80Sflorian edns.opt_list_in = NULL; 2385a1a7ba80Sflorian edns.opt_list_out = NULL; 2386a1a7ba80Sflorian edns.opt_list_inplace_cb_out = NULL; 2387a8eaceedSflorian edns.padding_block_size = 0; 2388d500c338Sflorian edns.cookie_present = 0; 2389d500c338Sflorian edns.cookie_valid = 0; 2390ae8c6e27Sflorian if(sldns_buffer_capacity(buf) < 65535) 2391ae8c6e27Sflorian edns.udp_size = (uint16_t)sldns_buffer_capacity(buf); 2392ae8c6e27Sflorian else edns.udp_size = 65535; 2393ae8c6e27Sflorian 2394ae8c6e27Sflorian /* can't hold the lock while mesh_run is processing */ 2395ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 2396ae8c6e27Sflorian 2397ae8c6e27Sflorian /* delete the DNSKEY from rrset and key cache so an active probe 2398ae8c6e27Sflorian * is done. First the rrset so another thread does not use it 2399ae8c6e27Sflorian * to recreate the key entry in a race condition. */ 2400ae8c6e27Sflorian rrset_cache_remove(env->rrset_cache, qinfo.qname, qinfo.qname_len, 2401ae8c6e27Sflorian qinfo.qtype, qinfo.qclass, 0); 2402ae8c6e27Sflorian key_cache_remove(env->key_cache, qinfo.qname, qinfo.qname_len, 2403ae8c6e27Sflorian qinfo.qclass); 2404ae8c6e27Sflorian 2405ae8c6e27Sflorian if(!mesh_new_callback(env->mesh, &qinfo, qflags, &edns, buf, 0, 24067a05b9dfSflorian &probe_answer_cb, env, 0)) { 2407ae8c6e27Sflorian log_err("out of memory making 5011 probe"); 2408ae8c6e27Sflorian } 2409ae8c6e27Sflorian } 2410ae8c6e27Sflorian 2411ae8c6e27Sflorian /** fetch first to-probe trust-anchor and lock it and set retrytime */ 2412ae8c6e27Sflorian static struct trust_anchor* 2413ae8c6e27Sflorian todo_probe(struct module_env* env, time_t* next) 2414ae8c6e27Sflorian { 2415ae8c6e27Sflorian struct trust_anchor* tp; 2416ae8c6e27Sflorian rbnode_type* el; 2417ae8c6e27Sflorian /* get first one */ 2418ae8c6e27Sflorian lock_basic_lock(&env->anchors->lock); 2419ae8c6e27Sflorian if( (el=rbtree_first(&env->anchors->autr->probe)) == RBTREE_NULL) { 2420ae8c6e27Sflorian /* in case of revoked anchors */ 2421ae8c6e27Sflorian lock_basic_unlock(&env->anchors->lock); 2422ae8c6e27Sflorian /* signal that there are no anchors to probe */ 2423ae8c6e27Sflorian *next = 0; 2424ae8c6e27Sflorian return NULL; 2425ae8c6e27Sflorian } 2426ae8c6e27Sflorian tp = (struct trust_anchor*)el->key; 2427ae8c6e27Sflorian lock_basic_lock(&tp->lock); 2428ae8c6e27Sflorian 2429ae8c6e27Sflorian /* is it eligible? */ 2430ae8c6e27Sflorian if((time_t)tp->autr->next_probe_time > *env->now) { 2431ae8c6e27Sflorian /* no more to probe */ 2432ae8c6e27Sflorian *next = (time_t)tp->autr->next_probe_time - *env->now; 2433ae8c6e27Sflorian lock_basic_unlock(&tp->lock); 2434ae8c6e27Sflorian lock_basic_unlock(&env->anchors->lock); 2435ae8c6e27Sflorian return NULL; 2436ae8c6e27Sflorian } 2437ae8c6e27Sflorian 2438ae8c6e27Sflorian /* reset its next probe time */ 2439ae8c6e27Sflorian (void)rbtree_delete(&env->anchors->autr->probe, tp); 2440ae8c6e27Sflorian tp->autr->next_probe_time = calc_next_probe(env, tp->autr->retry_time); 2441ae8c6e27Sflorian (void)rbtree_insert(&env->anchors->autr->probe, &tp->autr->pnode); 2442ae8c6e27Sflorian lock_basic_unlock(&env->anchors->lock); 2443ae8c6e27Sflorian 2444ae8c6e27Sflorian return tp; 2445ae8c6e27Sflorian } 2446ae8c6e27Sflorian 2447ae8c6e27Sflorian time_t 2448ae8c6e27Sflorian autr_probe_timer(struct module_env* env) 2449ae8c6e27Sflorian { 2450ae8c6e27Sflorian struct trust_anchor* tp; 2451ae8c6e27Sflorian time_t next_probe = 3600; 2452ae8c6e27Sflorian int num = 0; 2453ae8c6e27Sflorian if(autr_permit_small_holddown) next_probe = 1; 2454ae8c6e27Sflorian verbose(VERB_ALGO, "autotrust probe timer callback"); 2455ae8c6e27Sflorian /* while there are still anchors to probe */ 2456ae8c6e27Sflorian while( (tp = todo_probe(env, &next_probe)) ) { 2457ae8c6e27Sflorian /* make a probe for this anchor */ 2458ae8c6e27Sflorian probe_anchor(env, tp); 2459ae8c6e27Sflorian num++; 2460ae8c6e27Sflorian } 2461ae8c6e27Sflorian regional_free_all(env->scratch); 2462ae8c6e27Sflorian if(next_probe == 0) 2463ae8c6e27Sflorian return 0; /* no trust points to probe */ 2464ae8c6e27Sflorian verbose(VERB_ALGO, "autotrust probe timer %d callbacks done", num); 2465ae8c6e27Sflorian return next_probe; 2466ae8c6e27Sflorian } 2467