/* * xfrd-disk.c - XFR (transfer) Daemon TCP system source file. Read/Write state to disk. * * Copyright (c) 2001-2006, NLnet Labs. All rights reserved. * * See LICENSE for the license. * */ #include "config.h" #include #include #include #include #include #include #include #include "xfrd-disk.h" #include "xfrd.h" #include "buffer.h" #include "nsd.h" #include "options.h" /* quick tokenizer, reads words separated by whitespace. No quoted strings. Comments are skipped (#... eol). */ static char* xfrd_read_token(FILE* in) { static char buf[4000]; buf[sizeof(buf)-1]=0; while(1) { if(fscanf(in, " %3990s", buf) != 1) return 0; if(buf[0] != '#') return buf; if(!fgets(buf, sizeof(buf), in)) return 0; } } static int xfrd_read_i16(FILE *in, uint16_t* v) { char* p = xfrd_read_token(in); if(!p) return 0; *v=atoi(p); return 1; } static int xfrd_read_i32(FILE *in, uint32_t* v) { char* p = xfrd_read_token(in); if(!p) return 0; *v=atoi(p); return 1; } static int xfrd_read_time_t(FILE *in, time_t* v) { char* p = xfrd_read_token(in); if(!p) return 0; *v=atol(p); return 1; } static int xfrd_read_check_str(FILE* in, const char* str) { char *p = xfrd_read_token(in); if(!p) return 0; if(strcmp(p, str) != 0) return 0; return 1; } static int xfrd_read_state_soa(FILE* in, const char* id_acquired, const char* id, xfrd_soa_type* soa, time_t* soatime) { char *p; if(!xfrd_read_check_str(in, id_acquired) || !xfrd_read_time_t(in, soatime)) { return 0; } if(*soatime == 0) return 1; if(!xfrd_read_check_str(in, id) || !xfrd_read_i16(in, &soa->type) || !xfrd_read_i16(in, &soa->klass) || !xfrd_read_i32(in, &soa->ttl) || !xfrd_read_i16(in, &soa->rdata_count)) { return 0; } soa->type = htons(soa->type); soa->klass = htons(soa->klass); soa->ttl = htonl(soa->ttl); soa->rdata_count = htons(soa->rdata_count); if(!(p=xfrd_read_token(in)) || !(soa->prim_ns[0] = dname_parse_wire(soa->prim_ns+1, p))) return 0; if(!(p=xfrd_read_token(in)) || !(soa->email[0] = dname_parse_wire(soa->email+1, p))) return 0; if(!xfrd_read_i32(in, &soa->serial) || !xfrd_read_i32(in, &soa->refresh) || !xfrd_read_i32(in, &soa->retry) || !xfrd_read_i32(in, &soa->expire) || !xfrd_read_i32(in, &soa->minimum)) { return 0; } soa->serial = htonl(soa->serial); soa->refresh = htonl(soa->refresh); soa->retry = htonl(soa->retry); soa->expire = htonl(soa->expire); soa->minimum = htonl(soa->minimum); return 1; } void xfrd_read_state(struct xfrd_state* xfrd) { const char* statefile = xfrd->nsd->options->xfrdfile; FILE *in; uint32_t filetime = 0; uint32_t numzones, i; region_type *tempregion; time_t soa_refresh; tempregion = region_create(xalloc, free); if(!tempregion) return; in = fopen(statefile, "r"); if(!in) { if(errno != ENOENT) { log_msg(LOG_ERR, "xfrd: Could not open file %s for reading: %s", statefile, strerror(errno)); } else { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: no file %s. refreshing all zones.", statefile)); } region_destroy(tempregion); return; } if(!xfrd_read_check_str(in, XFRD_FILE_MAGIC)) { /* older file version; reset everything */ DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: file %s is old version. refreshing all zones.", statefile)); fclose(in); region_destroy(tempregion); return; } if(!xfrd_read_check_str(in, "filetime:") || !xfrd_read_i32(in, &filetime) || (time_t)filetime > xfrd_time()+15 || !xfrd_read_check_str(in, "numzones:") || !xfrd_read_i32(in, &numzones)) { log_msg(LOG_ERR, "xfrd: corrupt state file %s dated %d (now=%lld)", statefile, (int)filetime, (long long)xfrd_time()); fclose(in); region_destroy(tempregion); return; } for(i=0; i2) || !xfrd_read_check_str(in, "master:") || !xfrd_read_i32(in, &masnum) || !xfrd_read_check_str(in, "next_master:") || !xfrd_read_i32(in, &nextmas) || !xfrd_read_check_str(in, "round_num:") || !xfrd_read_i32(in, &round_num) || !xfrd_read_check_str(in, "next_timeout:") || !xfrd_read_i32(in, &timeout) || !xfrd_read_check_str(in, "backoff:") || !xfrd_read_i32(in, &backoff) || !xfrd_read_state_soa(in, "soa_nsd_acquired:", "soa_nsd:", &soa_nsd_read, &soa_nsd_acquired_read) || !xfrd_read_state_soa(in, "soa_disk_acquired:", "soa_disk:", &soa_disk_read, &soa_disk_acquired_read) || !xfrd_read_state_soa(in, "soa_notify_acquired:", "soa_notify:", &soa_notified_read, &soa_notified_acquired_read)) { log_msg(LOG_ERR, "xfrd: corrupt state file %s dated %d (now=%lld)", statefile, (int)filetime, (long long)xfrd_time()); fclose(in); region_destroy(tempregion); return; } zone = (xfrd_zone_type*)rbtree_search(xfrd->zones, dname); if(!zone) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: state file has info for not configured zone %s", p)); continue; } if(soa_nsd_acquired_read>xfrd_time()+15 || soa_disk_acquired_read>xfrd_time()+15 || soa_notified_acquired_read>xfrd_time()+15) { log_msg(LOG_ERR, "xfrd: statefile %s contains" " times in the future for zone %s. Ignoring.", statefile, zone->apex_str); continue; } zone->state = state; zone->master_num = masnum; zone->next_master = nextmas; zone->round_num = round_num; zone->timeout.tv_sec = timeout; zone->timeout.tv_usec = 0; zone->fresh_xfr_timeout = backoff*XFRD_TRANSFER_TIMEOUT_START; /* read the zone OK, now set the master properly */ zone->master = acl_find_num(zone->zone_options->pattern-> request_xfr, zone->master_num); if(!zone->master) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: masters changed for zone %s", zone->apex_str)); zone->master = zone->zone_options->pattern->request_xfr; zone->master_num = 0; zone->round_num = 0; } /* * There is no timeout, * or there is a notification, * or there is a soa && current time is past refresh point */ soa_refresh = ntohl(soa_disk_read.refresh); if (soa_refresh > (time_t)zone->zone_options->pattern->max_refresh_time) soa_refresh = zone->zone_options->pattern->max_refresh_time; else if (soa_refresh < (time_t)zone->zone_options->pattern->min_refresh_time) soa_refresh = zone->zone_options->pattern->min_refresh_time; if(timeout == 0 || soa_notified_acquired_read != 0 || (soa_disk_acquired_read != 0 && (uint32_t)xfrd_time() - soa_disk_acquired_read > (uint32_t)soa_refresh)) { zone->state = xfrd_zone_refreshing; xfrd_set_refresh_now(zone); } /* There is a soa && current time is past expiry point */ if(soa_disk_acquired_read!=0 && (uint32_t)xfrd_time() - soa_disk_acquired_read > ntohl(soa_disk_read.expire)) { zone->state = xfrd_zone_expired; xfrd_set_refresh_now(zone); } /* there is a zone read and it matches what we had before */ if(zone->soa_nsd_acquired && zone->state != xfrd_zone_expired && zone->soa_nsd.serial == soa_nsd_read.serial) { xfrd_deactivate_zone(zone); zone->state = state; xfrd_set_timer(zone, timeout); } if((zone->soa_nsd_acquired == 0 && soa_nsd_acquired_read == 0 && soa_disk_acquired_read == 0) || (zone->state != xfrd_zone_ok && timeout != 0)) { /* but don't check now, because that would mean a * storm of attempts on some master servers */ xfrd_deactivate_zone(zone); zone->state = state; xfrd_set_timer(zone, timeout); } /* handle as an incoming SOA. */ incoming_soa = zone->soa_nsd; incoming_acquired = zone->soa_nsd_acquired; zone->soa_nsd = soa_nsd_read; zone->soa_disk = soa_disk_read; zone->soa_notified = soa_notified_read; zone->soa_nsd_acquired = soa_nsd_acquired_read; /* we had better use what we got from starting NSD, not * what we store in this file, because the actual zone * contents trumps the contents of this cache */ /* zone->soa_disk_acquired = soa_disk_acquired_read; */ zone->soa_notified_acquired = soa_notified_acquired_read; if (zone->state == xfrd_zone_expired) { xfrd_send_expire_notification(zone); } if(incoming_acquired != 0) xfrd_handle_incoming_soa(zone, &incoming_soa, incoming_acquired); } if(!xfrd_read_check_str(in, XFRD_FILE_MAGIC)) { log_msg(LOG_ERR, "xfrd: corrupt state file %s dated %d (now=%lld)", statefile, (int)filetime, (long long)xfrd_time()); region_destroy(tempregion); fclose(in); return; } DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: read %d zones from state file", (int)numzones)); fclose(in); region_destroy(tempregion); } /* prints neato days hours and minutes. */ static void neato_timeout(FILE* out, const char* str, time_t secs) { fprintf(out, "%s", str); if(secs <= 0) { fprintf(out, " %llds", (long long)secs); return; } if(secs >= 3600*24) { fprintf(out, " %lldd", (long long)(secs/(3600*24))); secs = secs % (3600*24); } if(secs >= 3600) { fprintf(out, " %lldh", (long long)(secs/3600)); secs = secs%3600; } if(secs >= 60) { fprintf(out, " %lldm", (long long)(secs/60)); secs = secs%60; } if(secs > 0) { fprintf(out, " %llds", (long long)secs); } } static void xfrd_write_dname(FILE* out, uint8_t* dname) { uint8_t* d= dname+1; uint8_t len = *d++; uint8_t i; if(dname[0]<=1) { fprintf(out, "."); return; } while(len) { assert(d - (dname+1) <= dname[0]); for(i=0; itype), (unsigned)ntohs(soa->klass), (unsigned)ntohl(soa->ttl), (unsigned)ntohs(soa->rdata_count)); fprintf(out, " "); xfrd_write_dname(out, soa->prim_ns); fprintf(out, " "); xfrd_write_dname(out, soa->email); fprintf(out, " %u", (unsigned)ntohl(soa->serial)); fprintf(out, " %u", (unsigned)ntohl(soa->refresh)); fprintf(out, " %u", (unsigned)ntohl(soa->retry)); fprintf(out, " %u", (unsigned)ntohl(soa->expire)); fprintf(out, " %u\n", (unsigned)ntohl(soa->minimum)); fprintf(out, "\t#"); neato_timeout(out, " refresh =", ntohl(soa->refresh)); neato_timeout(out, " retry =", ntohl(soa->retry)); neato_timeout(out, " expire =", ntohl(soa->expire)); neato_timeout(out, " minimum =", ntohl(soa->minimum)); fprintf(out, "\n"); } void xfrd_write_state(struct xfrd_state* xfrd) { rbnode_type* p; const char* statefile = xfrd->nsd->options->xfrdfile; FILE *out; time_t now = xfrd_time(); DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: write file %s", statefile)); out = fopen(statefile, "w"); if(!out) { log_msg(LOG_ERR, "xfrd: Could not open file %s for writing: %s", statefile, strerror(errno)); return; } fprintf(out, "%s\n", XFRD_FILE_MAGIC); fprintf(out, "# This file is written on exit by nsd xfr daemon.\n"); fprintf(out, "# This file contains slave zone information:\n"); fprintf(out, "# * timeouts (when was zone data acquired)\n"); fprintf(out, "# * state (OK, refreshing, expired)\n"); fprintf(out, "# * which master transfer to attempt next\n"); fprintf(out, "# The file is read on start (but not on reload) by nsd xfr daemon.\n"); fprintf(out, "# You can edit; but do not change statement order\n"); fprintf(out, "# and no fancy stuff (like quoted \"strings\").\n"); fprintf(out, "#\n"); fprintf(out, "# If you remove a zone entry, it will be refreshed.\n"); fprintf(out, "# This can be useful for an expired zone; it revives\n"); fprintf(out, "# the zone temporarily, from refresh-expiry time.\n"); fprintf(out, "# If you delete the file all slave zones are updated.\n"); fprintf(out, "#\n"); fprintf(out, "# Note: if you edit this file while nsd is running,\n"); fprintf(out, "# it will be overwritten on exit by nsd.\n"); fprintf(out, "\n"); fprintf(out, "filetime: %lld\t# %s\n", (long long)now, ctime(&now)); fprintf(out, "# The number of zone entries in this file\n"); fprintf(out, "numzones: %d\n", (int)xfrd->zones->count); fprintf(out, "\n"); for(p = rbtree_first(xfrd->zones); p && p!=RBTREE_NULL; p=rbtree_next(p)) { xfrd_zone_type* zone = (xfrd_zone_type*)p; fprintf(out, "zone: \tname: %s\n", zone->apex_str); fprintf(out, "\tstate: %d", (int)zone->state); fprintf(out, " # %s", zone->state==xfrd_zone_ok?"OK":( zone->state==xfrd_zone_refreshing?"refreshing":"expired")); fprintf(out, "\n"); fprintf(out, "\tmaster: %d\n", zone->master_num); fprintf(out, "\tnext_master: %d\n", zone->next_master); fprintf(out, "\tround_num: %d\n", zone->round_num); fprintf(out, "\tnext_timeout: %d", (zone->zone_handler_flags&EV_TIMEOUT)?(int)zone->timeout.tv_sec:0); if((zone->zone_handler_flags&EV_TIMEOUT)) { neato_timeout(out, "\t# =", zone->timeout.tv_sec); } fprintf(out, "\n"); fprintf(out, "\tbackoff: %d\n", zone->fresh_xfr_timeout/XFRD_TRANSFER_TIMEOUT_START); xfrd_write_state_soa(out, "soa_nsd", &zone->soa_nsd, zone->soa_nsd_acquired, zone->apex); xfrd_write_state_soa(out, "soa_disk", &zone->soa_disk, zone->soa_disk_acquired, zone->apex); xfrd_write_state_soa(out, "soa_notify", &zone->soa_notified, zone->soa_notified_acquired, zone->apex); fprintf(out, "\n"); } fprintf(out, "%s\n", XFRD_FILE_MAGIC); DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: written %d zones to state file", (int)xfrd->zones->count)); fclose(out); } /* return tempdirname */ static void tempdirname(char* buf, size_t sz, struct nsd* nsd) { snprintf(buf, sz, "%snsd-xfr-%d", nsd->options->xfrdir, (int)nsd->pid); } void xfrd_make_tempdir(struct nsd* nsd) { char tnm[1024]; tempdirname(tnm, sizeof(tnm), nsd); /* create parent directories if needed (0750 permissions) */ if(!create_dirs(tnm)) { log_msg(LOG_ERR, "parentdirs of %s failed", tnm); } /* restrictive permissions here, because this may be in /tmp */ if(mkdir(tnm, 0700)==-1) { if(errno != EEXIST) { log_msg(LOG_ERR, "mkdir %s failed: %s", tnm, strerror(errno)); } } } void xfrd_del_tempdir(struct nsd* nsd) { char tnm[1024]; tempdirname(tnm, sizeof(tnm), nsd); /* ignore parent directories, they are likely /var/tmp, /tmp or * /var/cache/nsd and do not have to be deleted */ if(rmdir(tnm)==-1 && errno != ENOENT) { log_msg(LOG_WARNING, "rmdir %s failed: %s", tnm, strerror(errno)); } } /* return name of xfrfile in tempdir */ static void tempxfrname(char* buf, size_t sz, struct nsd* nsd, uint64_t number) { char tnm[1024]; tempdirname(tnm, sizeof(tnm), nsd); snprintf(buf, sz, "%s/xfr.%lld", tnm, (long long)number); } FILE* xfrd_open_xfrfile(struct nsd* nsd, uint64_t number, char* mode) { char fname[1200]; FILE* xfr; tempxfrname(fname, sizeof(fname), nsd, number); xfr = fopen(fname, mode); if(!xfr && errno == ENOENT) { /* directory may not exist */ xfrd_make_tempdir(nsd); xfr = fopen(fname, mode); } if(!xfr) { log_msg(LOG_ERR, "open %s for %s failed: %s", fname, mode, strerror(errno)); return NULL; } return xfr; } void xfrd_unlink_xfrfile(struct nsd* nsd, uint64_t number) { char fname[1200]; tempxfrname(fname, sizeof(fname), nsd, number); if(unlink(fname) == -1) { log_msg(LOG_WARNING, "could not unlink %s: %s", fname, strerror(errno)); } } uint64_t xfrd_get_xfrfile_size(struct nsd* nsd, uint64_t number ) { char fname[1200]; struct stat tempxfr_stat; tempxfrname(fname, sizeof(fname), nsd, number); if( stat( fname, &tempxfr_stat ) < 0 ) { log_msg(LOG_WARNING, "could not get file size %s: %s", fname, strerror(errno)); return 0; } return (uint64_t)tempxfr_stat.st_size; }