/* * xfrd.c - XFR (transfer) Daemon source file. Coordinates SOA updates. * * 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.h" #include "xfrd-tcp.h" #include "xfrd-disk.h" #include "xfrd-notify.h" #include "options.h" #include "util.h" #include "netio.h" #include "region-allocator.h" #include "nsd.h" #include "packet.h" #include "rdata.h" #include "difffile.h" #include "ipc.h" #include "remote.h" #define XFRD_UDP_TIMEOUT 10 /* seconds, before a udp request times out */ #define XFRD_NO_IXFR_CACHE 172800 /* 48h before retrying ixfr's after notimpl */ #define XFRD_LOWERBOUND_REFRESH 1 /* seconds, smallest refresh timeout */ #define XFRD_LOWERBOUND_RETRY 1 /* seconds, smallest retry timeout */ #define XFRD_MAX_ROUNDS 1 /* max number of rounds along the masters */ #define XFRD_TSIG_MAX_UNSIGNED 103 /* max number of packets without tsig in a tcp stream. */ /* rfc recommends 100, +3 for offbyone errors/interoperability. */ #define XFRD_CHILD_REAP_TIMEOUT 60 /* seconds to wakeup and reap lost children */ /* these are reload processes that SIGCHILDed but the signal * was lost, and need waitpid to remove their process entry. */ /* the daemon state */ xfrd_state_type* xfrd = 0; /* main xfrd loop */ static void xfrd_main(void); /* shut down xfrd, close sockets. */ static void xfrd_shutdown(void); /* delete pending task xfr files in tmp */ static void xfrd_clean_pending_tasks(struct nsd* nsd, udb_base* u); /* create zone rbtree at start */ static void xfrd_init_zones(void); /* initial handshake with SOAINFO from main and send expire to main */ static void xfrd_receive_soa(int socket, int shortsoa); /* handle incoming notification message. soa can be NULL. true if transfer needed. */ static int xfrd_handle_incoming_notify(xfrd_zone_type* zone, xfrd_soa_type* soa); /* call with buffer just after the soa dname. returns 0 on error. */ static int xfrd_parse_soa_info(buffer_type* packet, xfrd_soa_type* soa); /* set the zone state to a new state (takes care of expiry messages) */ static void xfrd_set_zone_state(xfrd_zone_type* zone, enum xfrd_zone_state new_zone_state); /* set timer for retry amount (depends on zone_state) */ static void xfrd_set_timer_retry(xfrd_zone_type* zone); /* set timer for refresh timeout (depends on zone_state) */ static void xfrd_set_timer_refresh(xfrd_zone_type* zone); /* set reload timeout */ static void xfrd_set_reload_timeout(void); /* handle reload timeout */ static void xfrd_handle_reload(int fd, short event, void* arg); /* handle child timeout */ static void xfrd_handle_child_timer(int fd, short event, void* arg); /* send ixfr request, returns fd of connection to read on */ static int xfrd_send_ixfr_request_udp(xfrd_zone_type* zone); /* obtain udp socket slot */ static void xfrd_udp_obtain(xfrd_zone_type* zone); /* read data via udp */ static void xfrd_udp_read(xfrd_zone_type* zone); /* find master by notify number */ static int find_same_master_notify(xfrd_zone_type* zone, int acl_num_nfy); /* set the write timer to activate */ static void xfrd_write_timer_set(void); static void xfrd_signal_callback(int sig, short event, void* ATTR_UNUSED(arg)) { if(!(event & EV_SIGNAL)) return; sig_handler(sig); } static void xfrd_sigsetup(int sig) { /* no need to remember the event ; dealloc on process exit */ struct event *ev = xalloc_zero(sizeof(*ev)); signal_set(ev, sig, xfrd_signal_callback, NULL); if(event_base_set(xfrd->event_base, ev) != 0) { log_msg(LOG_ERR, "xfrd sig handler: event_base_set failed"); } if(signal_add(ev, NULL) != 0) { log_msg(LOG_ERR, "xfrd sig handler: signal_add failed"); } } void xfrd_init(int socket, struct nsd* nsd, int shortsoa, int reload_active, pid_t nsd_pid) { region_type* region; assert(xfrd == 0); /* to setup signalhandling */ nsd->server_kind = NSD_SERVER_MAIN; region = region_create_custom(xalloc, free, DEFAULT_CHUNK_SIZE, DEFAULT_LARGE_OBJECT_SIZE, DEFAULT_INITIAL_CLEANUP_SIZE, 1); xfrd = (xfrd_state_type*)region_alloc(region, sizeof(xfrd_state_type)); memset(xfrd, 0, sizeof(xfrd_state_type)); xfrd->region = region; xfrd->xfrd_start_time = time(0); xfrd->event_base = nsd_child_event_base(); if(!xfrd->event_base) { log_msg(LOG_ERR, "xfrd: cannot create event base"); exit(1); } xfrd->nsd = nsd; xfrd->packet = buffer_create(xfrd->region, QIOBUFSZ); xfrd->udp_waiting_first = NULL; xfrd->udp_waiting_last = NULL; xfrd->udp_use_num = 0; xfrd->got_time = 0; xfrd->xfrfilenumber = 0; #ifdef USE_ZONE_STATS xfrd->zonestat_safe = nsd->zonestatdesired; #endif xfrd->activated_first = NULL; xfrd->ipc_pass = buffer_create(xfrd->region, QIOBUFSZ); xfrd->last_task = region_alloc(xfrd->region, sizeof(*xfrd->last_task)); udb_ptr_init(xfrd->last_task, xfrd->nsd->task[xfrd->nsd->mytask]); assert(shortsoa || udb_base_get_userdata(xfrd->nsd->task[xfrd->nsd->mytask])->data == 0); xfrd->reload_handler.ev_fd = -1; xfrd->reload_added = 0; xfrd->reload_timeout.tv_sec = 0; xfrd->reload_cmd_last_sent = xfrd->xfrd_start_time; xfrd->can_send_reload = !reload_active; xfrd->reload_pid = nsd_pid; xfrd->child_timer_added = 0; xfrd->ipc_send_blocked = 0; event_set(&xfrd->ipc_handler, socket, EV_PERSIST|EV_READ, xfrd_handle_ipc, xfrd); if(event_base_set(xfrd->event_base, &xfrd->ipc_handler) != 0) log_msg(LOG_ERR, "xfrd ipc handler: event_base_set failed"); if(event_add(&xfrd->ipc_handler, NULL) != 0) log_msg(LOG_ERR, "xfrd ipc handler: event_add failed"); xfrd->ipc_handler_flags = EV_PERSIST|EV_READ; xfrd->ipc_conn = xfrd_tcp_create(xfrd->region, QIOBUFSZ); /* not reading using ipc_conn yet */ xfrd->ipc_conn->is_reading = 0; xfrd->ipc_conn->fd = socket; xfrd->need_to_send_reload = 0; xfrd->need_to_send_shutdown = 0; xfrd->need_to_send_stats = 0; xfrd->write_zonefile_needed = 0; if(nsd->options->zonefiles_write) xfrd_write_timer_set(); xfrd->notify_waiting_first = NULL; xfrd->notify_waiting_last = NULL; xfrd->notify_udp_num = 0; #ifdef HAVE_SSL daemon_remote_attach(xfrd->nsd->rc, xfrd); #endif xfrd->tcp_set = xfrd_tcp_set_create(xfrd->region); xfrd->tcp_set->tcp_timeout = nsd->tcp_timeout; #ifndef HAVE_ARC4RANDOM srandom((unsigned long) getpid() * (unsigned long) time(NULL)); #endif DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd pre-startup")); xfrd_init_zones(); xfrd_receive_soa(socket, shortsoa); if(nsd->options->xfrdfile != NULL && nsd->options->xfrdfile[0]!=0) xfrd_read_state(xfrd); /* did we get killed before startup was successful? */ if(nsd->signal_hint_shutdown) { kill(nsd_pid, SIGTERM); xfrd_shutdown(); return; } /* init libevent signals now, so that in the previous init scripts * the normal sighandler is called, and can set nsd->signal_hint.. * these are also looked at in sig_process before we run the main loop*/ xfrd_sigsetup(SIGHUP); xfrd_sigsetup(SIGTERM); xfrd_sigsetup(SIGQUIT); xfrd_sigsetup(SIGCHLD); xfrd_sigsetup(SIGALRM); xfrd_sigsetup(SIGILL); xfrd_sigsetup(SIGUSR1); xfrd_sigsetup(SIGINT); DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd startup")); xfrd_main(); } static void xfrd_process_activated(void) { xfrd_zone_type* zone; while((zone = xfrd->activated_first)) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd zone %s activation", zone->apex_str)); /* pop zone from activated list */ xfrd->activated_first = zone->activated_next; if(zone->activated_next) zone->activated_next->activated_prev = NULL; zone->is_activated = 0; /* run it : no events, specifically not the TIMEOUT event, * so that running zone transfers are not interrupted */ xfrd_handle_zone(zone->zone_handler.ev_fd, 0, zone); } } static void xfrd_sig_process(void) { int status; pid_t child_pid; if(xfrd->nsd->signal_hint_quit || xfrd->nsd->signal_hint_shutdown) { xfrd->nsd->signal_hint_quit = 0; xfrd->nsd->signal_hint_shutdown = 0; xfrd->need_to_send_shutdown = 1; if(!(xfrd->ipc_handler_flags&EV_WRITE)) { ipc_xfrd_set_listening(xfrd, EV_PERSIST|EV_READ|EV_WRITE); } } else if(xfrd->nsd->signal_hint_reload_hup) { log_msg(LOG_WARNING, "SIGHUP received, reloading..."); xfrd->nsd->signal_hint_reload_hup = 0; if(xfrd->nsd->options->zonefiles_check) { task_new_check_zonefiles(xfrd->nsd->task[ xfrd->nsd->mytask], xfrd->last_task, NULL); } xfrd_set_reload_now(xfrd); } else if(xfrd->nsd->signal_hint_statsusr) { xfrd->nsd->signal_hint_statsusr = 0; xfrd->need_to_send_stats = 1; if(!(xfrd->ipc_handler_flags&EV_WRITE)) { ipc_xfrd_set_listening(xfrd, EV_PERSIST|EV_READ|EV_WRITE); } } /* collect children that exited. */ xfrd->nsd->signal_hint_child = 0; while((child_pid = waitpid(-1, &status, WNOHANG)) != -1 && child_pid != 0) { if(status != 0) { log_msg(LOG_ERR, "process %d exited with status %d", (int)child_pid, status); } } if(!xfrd->child_timer_added) { struct timeval tv; tv.tv_sec = XFRD_CHILD_REAP_TIMEOUT; tv.tv_usec = 0; event_set(&xfrd->child_timer, -1, EV_TIMEOUT, xfrd_handle_child_timer, xfrd); if(event_base_set(xfrd->event_base, &xfrd->child_timer) != 0) log_msg(LOG_ERR, "xfrd child timer: event_base_set failed"); if(event_add(&xfrd->child_timer, &tv) != 0) log_msg(LOG_ERR, "xfrd child timer: event_add failed"); xfrd->child_timer_added = 1; } } static void xfrd_main(void) { /* we may have signals from the startup period, process them */ xfrd_sig_process(); xfrd->shutdown = 0; while(!xfrd->shutdown) { /* process activated zones before blocking in select again */ xfrd_process_activated(); /* dispatch may block for a longer period, so current is gone */ xfrd->got_time = 0; if(event_base_loop(xfrd->event_base, EVLOOP_ONCE) == -1) { if (errno != EINTR) { log_msg(LOG_ERR, "xfrd dispatch failed: %s", strerror(errno)); } } xfrd_sig_process(); } xfrd_shutdown(); } static void xfrd_shutdown() { xfrd_zone_type* zone; DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd shutdown")); event_del(&xfrd->ipc_handler); close(xfrd->ipc_handler.ev_fd); /* notifies parent we stop */ if(xfrd->nsd->options->xfrdfile != NULL && xfrd->nsd->options->xfrdfile[0]!=0) xfrd_write_state(xfrd); if(xfrd->reload_added) { event_del(&xfrd->reload_handler); xfrd->reload_added = 0; } if(xfrd->child_timer_added) { event_del(&xfrd->child_timer); xfrd->child_timer_added = 0; } if(xfrd->nsd->options->zonefiles_write) { event_del(&xfrd->write_timer); } #ifdef HAVE_SSL daemon_remote_close(xfrd->nsd->rc); /* close sockets of rc */ #endif /* close sockets */ RBTREE_FOR(zone, xfrd_zone_type*, xfrd->zones) { if(zone->event_added) { event_del(&zone->zone_handler); if(zone->zone_handler.ev_fd != -1) { close(zone->zone_handler.ev_fd); zone->zone_handler.ev_fd = -1; } zone->event_added = 0; } } close_notify_fds(xfrd->notify_zones); /* wait for server parent (if necessary) */ if(xfrd->reload_pid != -1) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd wait for servermain %d", (int)xfrd->reload_pid)); while(1) { if(waitpid(xfrd->reload_pid, NULL, 0) == -1) { if(errno == EINTR) continue; if(errno == ECHILD) break; log_msg(LOG_ERR, "xfrd: waitpid(%d): %s", (int)xfrd->reload_pid, strerror(errno)); } break; } } /* if we are killed past this point this is not a problem, * some files left in /tmp are cleaned by the OS, but it is neater * to clean them out */ /* unlink xfr files for running transfers */ RBTREE_FOR(zone, xfrd_zone_type*, xfrd->zones) { if(zone->msg_seq_nr) xfrd_unlink_xfrfile(xfrd->nsd, zone->xfrfilenumber); } /* unlink xfr files in not-yet-done task file */ xfrd_clean_pending_tasks(xfrd->nsd, xfrd->nsd->task[xfrd->nsd->mytask]); xfrd_del_tempdir(xfrd->nsd); /* process-exit cleans up memory used by xfrd process */ DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd shutdown complete")); exit(0); } static void xfrd_clean_pending_tasks(struct nsd* nsd, udb_base* u) { udb_ptr t; udb_ptr_new(&t, u, udb_base_get_userdata(u)); /* no dealloc of entries, we delete the entire file when done */ while(!udb_ptr_is_null(&t)) { if(TASKLIST(&t)->task_type == task_apply_xfr) { xfrd_unlink_xfrfile(nsd, TASKLIST(&t)->yesno); } udb_ptr_set_rptr(&t, u, &TASKLIST(&t)->next); } udb_ptr_unlink(&t, u); } void xfrd_init_slave_zone(xfrd_state_type* xfrd, struct zone_options* zone_opt) { xfrd_zone_type *xzone; xzone = (xfrd_zone_type*)region_alloc(xfrd->region, sizeof(xfrd_zone_type)); memset(xzone, 0, sizeof(xfrd_zone_type)); xzone->apex = zone_opt->node.key; xzone->apex_str = zone_opt->name; xzone->state = xfrd_zone_refreshing; xzone->zone_options = zone_opt; /* first retry will use first master */ xzone->master = xzone->zone_options->pattern->request_xfr; xzone->master_num = 0; xzone->next_master = 0; xzone->fresh_xfr_timeout = XFRD_TRANSFER_TIMEOUT_START; xzone->soa_nsd_acquired = 0; xzone->soa_disk_acquired = 0; xzone->soa_notified_acquired = 0; /* [0]=1, [1]=0; "." domain name */ xzone->soa_nsd.prim_ns[0] = 1; xzone->soa_nsd.email[0] = 1; xzone->soa_disk.prim_ns[0]=1; xzone->soa_disk.email[0]=1; xzone->soa_notified.prim_ns[0]=1; xzone->soa_notified.email[0]=1; xzone->zone_handler.ev_fd = -1; xzone->zone_handler_flags = 0; xzone->event_added = 0; xzone->tcp_conn = -1; xzone->tcp_waiting = 0; xzone->udp_waiting = 0; xzone->is_activated = 0; xzone->multi_master_first_master = -1; xzone->multi_master_update_check = -1; tsig_create_record_custom(&xzone->tsig, NULL, 0, 0, 4); /* set refreshing anyway, if we have data it may be old */ xfrd_set_refresh_now(xzone); xzone->node.key = xzone->apex; rbtree_insert(xfrd->zones, (rbnode_type*)xzone); } static void xfrd_init_zones() { struct zone_options *zone_opt; assert(xfrd->zones == 0); xfrd->zones = rbtree_create(xfrd->region, (int (*)(const void *, const void *)) dname_compare); xfrd->notify_zones = rbtree_create(xfrd->region, (int (*)(const void *, const void *)) dname_compare); RBTREE_FOR(zone_opt, struct zone_options*, xfrd->nsd->options->zone_options) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: adding %s zone", zone_opt->name)); init_notify_send(xfrd->notify_zones, xfrd->region, zone_opt); if(!zone_is_slave(zone_opt)) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s, " "master zone has no outgoing xfr requests", zone_opt->name)); continue; } xfrd_init_slave_zone(xfrd, zone_opt); } DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: started server %d " "secondary zones", (int)xfrd->zones->count)); } static void xfrd_process_soa_info_task(struct task_list_d* task) { xfrd_soa_type soa; xfrd_soa_type* soa_ptr = &soa; xfrd_zone_type* zone; DEBUG(DEBUG_IPC,1, (LOG_INFO, "xfrd: process SOAINFO %s", dname_to_string(task->zname, 0))); zone = (xfrd_zone_type*)rbtree_search(xfrd->zones, task->zname); if(task->size <= sizeof(struct task_list_d)+dname_total_size( task->zname)+sizeof(uint32_t)*6 + sizeof(uint8_t)*2) { /* NSD has zone without any info */ DEBUG(DEBUG_IPC,1, (LOG_INFO, "SOAINFO for %s lost zone", dname_to_string(task->zname,0))); soa_ptr = NULL; } else { uint8_t* p = (uint8_t*)task->zname + dname_total_size( task->zname); /* read the soa info */ memset(&soa, 0, sizeof(soa)); /* left out type, klass, count for speed */ soa.type = htons(TYPE_SOA); soa.klass = htons(CLASS_IN); memmove(&soa.ttl, p, sizeof(uint32_t)); p += sizeof(uint32_t); soa.rdata_count = htons(7); memmove(soa.prim_ns, p, sizeof(uint8_t)); p += sizeof(uint8_t); memmove(soa.prim_ns+1, p, soa.prim_ns[0]); p += soa.prim_ns[0]; memmove(soa.email, p, sizeof(uint8_t)); p += sizeof(uint8_t); memmove(soa.email+1, p, soa.email[0]); p += soa.email[0]; memmove(&soa.serial, p, sizeof(uint32_t)); p += sizeof(uint32_t); memmove(&soa.refresh, p, sizeof(uint32_t)); p += sizeof(uint32_t); memmove(&soa.retry, p, sizeof(uint32_t)); p += sizeof(uint32_t); memmove(&soa.expire, p, sizeof(uint32_t)); p += sizeof(uint32_t); memmove(&soa.minimum, p, sizeof(uint32_t)); p += sizeof(uint32_t); DEBUG(DEBUG_IPC,1, (LOG_INFO, "SOAINFO for %s %u", dname_to_string(task->zname,0), (unsigned)ntohl(soa.serial))); } if(!zone) { DEBUG(DEBUG_IPC,1, (LOG_INFO, "xfrd: zone %s master zone updated", dname_to_string(task->zname,0))); notify_handle_master_zone_soainfo(xfrd->notify_zones, task->zname, soa_ptr); return; } xfrd_handle_incoming_soa(zone, soa_ptr, xfrd_time()); } static void xfrd_receive_soa(int socket, int shortsoa) { sig_atomic_t cmd; struct udb_base* xtask = xfrd->nsd->task[xfrd->nsd->mytask]; udb_ptr last_task, t; xfrd_zone_type* zone; if(!shortsoa) { /* put all expired zones into mytask */ udb_ptr_init(&last_task, xtask); RBTREE_FOR(zone, xfrd_zone_type*, xfrd->zones) { if(zone->state == xfrd_zone_expired) { task_new_expire(xtask, &last_task, zone->apex, 1); } } udb_ptr_unlink(&last_task, xtask); /* send RELOAD to main to give it this tasklist */ task_process_sync(xtask); cmd = NSD_RELOAD; if(!write_socket(socket, &cmd, sizeof(cmd))) { log_msg(LOG_ERR, "problems sending reload xfrdtomain: %s", strerror(errno)); } } /* receive RELOAD_DONE to get SOAINFO tasklist */ if(block_read(&nsd, socket, &cmd, sizeof(cmd), -1) != sizeof(cmd) || cmd != NSD_RELOAD_DONE) { if(nsd.signal_hint_shutdown) return; log_msg(LOG_ERR, "did not get start signal from main"); exit(1); } if(block_read(NULL, socket, &xfrd->reload_pid, sizeof(pid_t), -1) != sizeof(pid_t)) { log_msg(LOG_ERR, "xfrd cannot get reload_pid"); } /* process tasklist (SOAINFO data) */ udb_ptr_unlink(xfrd->last_task, xtask); /* if shortsoa: then use my own taskdb that nsdparent filled */ if(!shortsoa) xfrd->nsd->mytask = 1 - xfrd->nsd->mytask; xtask = xfrd->nsd->task[xfrd->nsd->mytask]; task_remap(xtask); udb_ptr_new(&t, xtask, udb_base_get_userdata(xtask)); while(!udb_ptr_is_null(&t)) { xfrd_process_soa_info_task(TASKLIST(&t)); udb_ptr_set_rptr(&t, xtask, &TASKLIST(&t)->next); } udb_ptr_unlink(&t, xtask); task_clear(xtask); udb_ptr_init(xfrd->last_task, xfrd->nsd->task[xfrd->nsd->mytask]); if(!shortsoa) { /* receive RELOAD_DONE that signals the other tasklist is * empty, and thus xfrd can operate (can call reload and swap * to the other, empty, tasklist) */ if(block_read(NULL, socket, &cmd, sizeof(cmd), -1) != sizeof(cmd) || cmd != NSD_RELOAD_DONE) { log_msg(LOG_ERR, "did not get start signal 2 from " "main"); exit(1); } } else { /* for shortsoa version, do expire later */ /* if expire notifications, put in my task and * schedule a reload to make sure they are processed */ RBTREE_FOR(zone, xfrd_zone_type*, xfrd->zones) { if(zone->state == xfrd_zone_expired) { xfrd_send_expire_notification(zone); } } } } void xfrd_reopen_logfile(void) { if (xfrd->nsd->file_rotation_ok) log_reopen(xfrd->nsd->log_filename, 0); } void xfrd_deactivate_zone(xfrd_zone_type* z) { if(z->is_activated) { /* delete from activated list */ if(z->activated_prev) z->activated_prev->activated_next = z->activated_next; else xfrd->activated_first = z->activated_next; if(z->activated_next) z->activated_next->activated_prev = z->activated_prev; z->is_activated = 0; } } void xfrd_del_slave_zone(xfrd_state_type* xfrd, const dname_type* dname) { xfrd_zone_type* z = (xfrd_zone_type*)rbtree_delete(xfrd->zones, dname); if(!z) return; /* io */ if(z->tcp_waiting) { /* delete from tcp waiting list */ if(z->tcp_waiting_prev) z->tcp_waiting_prev->tcp_waiting_next = z->tcp_waiting_next; else xfrd->tcp_set->tcp_waiting_first = z->tcp_waiting_next; if(z->tcp_waiting_next) z->tcp_waiting_next->tcp_waiting_prev = z->tcp_waiting_prev; else xfrd->tcp_set->tcp_waiting_last = z->tcp_waiting_prev; z->tcp_waiting = 0; } if(z->udp_waiting) { /* delete from udp waiting list */ if(z->udp_waiting_prev) z->udp_waiting_prev->udp_waiting_next = z->udp_waiting_next; else xfrd->udp_waiting_first = z->udp_waiting_next; if(z->udp_waiting_next) z->udp_waiting_next->udp_waiting_prev = z->udp_waiting_prev; else xfrd->udp_waiting_last = z->udp_waiting_prev; z->udp_waiting = 0; } xfrd_deactivate_zone(z); if(z->tcp_conn != -1) { xfrd_tcp_release(xfrd->tcp_set, z); } else if(z->zone_handler.ev_fd != -1 && z->event_added) { xfrd_udp_release(z); } else if(z->event_added) event_del(&z->zone_handler); if(z->msg_seq_nr) xfrd_unlink_xfrfile(xfrd->nsd, z->xfrfilenumber); /* tsig */ tsig_delete_record(&z->tsig, NULL); /* z->dname is recycled when the zone_options is removed */ region_recycle(xfrd->region, z, sizeof(*z)); } void xfrd_free_namedb(struct nsd* nsd) { namedb_close_udb(nsd->db); namedb_close(nsd->db); nsd->db = 0; } static void xfrd_set_timer_refresh(xfrd_zone_type* zone) { time_t set_refresh; time_t set_expire; time_t set_min; time_t set; if(zone->soa_disk_acquired == 0 || zone->state != xfrd_zone_ok) { xfrd_set_timer_retry(zone); return; } /* refresh or expire timeout, whichever is earlier */ set_refresh = ntohl(zone->soa_disk.refresh); if (set_refresh > (time_t)zone->zone_options->pattern->max_refresh_time) set_refresh = zone->zone_options->pattern->max_refresh_time; else if (set_refresh < (time_t)zone->zone_options->pattern->min_refresh_time) set_refresh = zone->zone_options->pattern->min_refresh_time; set_refresh += zone->soa_disk_acquired; set_expire = zone->soa_disk_acquired + ntohl(zone->soa_disk.expire); if(set_refresh < set_expire) set = set_refresh; else set = set_expire; set_min = zone->soa_disk_acquired + XFRD_LOWERBOUND_REFRESH; if(set < set_min) set = set_min; if(set < xfrd_time()) set = 0; else set -= xfrd_time(); xfrd_set_timer(zone, set); } static void xfrd_set_timer_retry(xfrd_zone_type* zone) { time_t set_retry; int mult; /* perform exponential backoff in all the cases */ if(zone->fresh_xfr_timeout == 0) zone->fresh_xfr_timeout = XFRD_TRANSFER_TIMEOUT_START; else { /* exponential backoff - some master data in zones is paid-for but non-working, and will not get fixed. */ zone->fresh_xfr_timeout *= 2; if(zone->fresh_xfr_timeout > XFRD_TRANSFER_TIMEOUT_MAX) zone->fresh_xfr_timeout = XFRD_TRANSFER_TIMEOUT_MAX; } /* exponential backoff multiplier, starts at 1, backs off */ mult = zone->fresh_xfr_timeout / XFRD_TRANSFER_TIMEOUT_START; if(mult == 0) mult = 1; /* set timer for next retry or expire timeout if earlier. */ if(zone->soa_disk_acquired == 0) { /* if no information, use reasonable timeout */ #ifdef HAVE_ARC4RANDOM_UNIFORM xfrd_set_timer(zone, zone->fresh_xfr_timeout + arc4random_uniform(zone->fresh_xfr_timeout)); #elif HAVE_ARC4RANDOM xfrd_set_timer(zone, zone->fresh_xfr_timeout + arc4random() % zone->fresh_xfr_timeout); #else xfrd_set_timer(zone, zone->fresh_xfr_timeout + random()%zone->fresh_xfr_timeout); #endif } else if(zone->state == xfrd_zone_expired || xfrd_time() + (time_t)ntohl(zone->soa_disk.retry)*mult < zone->soa_disk_acquired + (time_t)ntohl(zone->soa_disk.expire)) { set_retry = ntohl(zone->soa_disk.retry); set_retry *= mult; if(set_retry > (time_t)zone->zone_options->pattern->max_retry_time) set_retry = zone->zone_options->pattern->max_retry_time; else if(set_retry < (time_t)zone->zone_options->pattern->min_retry_time) set_retry = zone->zone_options->pattern->min_retry_time; if(set_retry < XFRD_LOWERBOUND_RETRY) set_retry = XFRD_LOWERBOUND_RETRY; xfrd_set_timer(zone, set_retry); } else { set_retry = ntohl(zone->soa_disk.expire); if(set_retry < XFRD_LOWERBOUND_RETRY) xfrd_set_timer(zone, XFRD_LOWERBOUND_RETRY); else { if(zone->soa_disk_acquired + set_retry < xfrd_time()) xfrd_set_timer(zone, XFRD_LOWERBOUND_RETRY); else xfrd_set_timer(zone, zone->soa_disk_acquired + set_retry - xfrd_time()); } } } void xfrd_handle_zone(int ATTR_UNUSED(fd), short event, void* arg) { xfrd_zone_type* zone = (xfrd_zone_type*)arg; if(zone->tcp_conn != -1) { if(event == 0) /* activated, but already in TCP, nothing to do*/ return; /* busy in tcp transaction: an internal error */ DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s event tcp", zone->apex_str)); xfrd_tcp_release(xfrd->tcp_set, zone); /* continue to retry; as if a timeout happened */ event = EV_TIMEOUT; } if((event & EV_READ)) { /* busy in udp transaction */ DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s event udp read", zone->apex_str)); xfrd_udp_read(zone); return; } /* timeout */ DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s timeout", zone->apex_str)); if(zone->zone_handler.ev_fd != -1 && zone->event_added && (event & EV_TIMEOUT)) { assert(zone->tcp_conn == -1); xfrd_udp_release(zone); } if(zone->tcp_waiting) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s skips retry, TCP connections full", zone->apex_str)); xfrd_unset_timer(zone); return; } if(zone->udp_waiting) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s skips retry, UDP connections full", zone->apex_str)); xfrd_unset_timer(zone); return; } if(zone->soa_disk_acquired) { if (zone->state != xfrd_zone_expired && xfrd_time() >= zone->soa_disk_acquired + (time_t)ntohl(zone->soa_disk.expire)) { /* zone expired */ log_msg(LOG_ERR, "xfrd: zone %s has expired", zone->apex_str); xfrd_set_zone_state(zone, xfrd_zone_expired); } else if(zone->state == xfrd_zone_ok && xfrd_time() >= zone->soa_disk_acquired + (time_t)ntohl(zone->soa_disk.refresh)) { /* zone goes to refreshing state. */ DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s is refreshing", zone->apex_str)); xfrd_set_zone_state(zone, xfrd_zone_refreshing); } } /* only make a new request if no request is running (UDPorTCP) */ if(zone->zone_handler.ev_fd == -1 && zone->tcp_conn == -1) { /* make a new request */ xfrd_make_request(zone); } } void xfrd_make_request(xfrd_zone_type* zone) { if(zone->next_master != -1) { /* we are told to use this next master */ DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd zone %s use master %i", zone->apex_str, zone->next_master)); zone->master_num = zone->next_master; zone->master = acl_find_num(zone->zone_options->pattern-> request_xfr, zone->master_num); /* if there is no next master, fallback to use the first one */ if(!zone->master) { zone->master = zone->zone_options->pattern->request_xfr; zone->master_num = 0; } /* fallback to cycle master */ zone->next_master = -1; zone->round_num = 0; /* fresh set of retries after notify */ } else { /* cycle master */ if(zone->round_num != -1 && zone->master && zone->master->next) { /* try the next master */ zone->master = zone->master->next; zone->master_num++; } else { /* start a new round */ zone->master = zone->zone_options->pattern->request_xfr; zone->master_num = 0; zone->round_num++; } if(zone->round_num >= XFRD_MAX_ROUNDS) { /* tried all servers that many times, wait */ zone->round_num = -1; xfrd_set_timer_retry(zone); DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd zone %s makereq wait_retry, rd %d mr %d nx %d", zone->apex_str, zone->round_num, zone->master_num, zone->next_master)); zone->multi_master_first_master = -1; return; } } /* multi-master-check */ if(zone->zone_options->pattern->multi_master_check) { if(zone->multi_master_first_master == zone->master_num && zone->round_num > 0 && zone->state != xfrd_zone_expired) { /* tried all servers and update zone */ if(zone->multi_master_update_check >= 0) { VERBOSITY(2, (LOG_INFO, "xfrd: multi master " "check: zone %s completed transfers", zone->apex_str)); } zone->round_num = -1; /* next try start anew */ zone->multi_master_first_master = -1; xfrd_set_timer_refresh(zone); return; } if(zone->multi_master_first_master < 0) { zone->multi_master_first_master = zone->master_num; zone->multi_master_update_check = -1; } } /* cache ixfr_disabled only for XFRD_NO_IXFR_CACHE time */ if (zone->master->ixfr_disabled && (zone->master->ixfr_disabled + XFRD_NO_IXFR_CACHE) <= time(NULL)) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "clear negative caching ixfr " "disabled for master %s num " "%d ", zone->master->ip_address_spec, zone->master_num)); zone->master->ixfr_disabled = 0; } DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd zone %s make request round %d mr %d nx %d", zone->apex_str, zone->round_num, zone->master_num, zone->next_master)); /* perform xfr request */ if (!zone->master->use_axfr_only && zone->soa_disk_acquired > 0 && !zone->master->ixfr_disabled) { if (zone->master->allow_udp) { xfrd_set_timer(zone, XFRD_UDP_TIMEOUT); xfrd_udp_obtain(zone); } else { /* doing 3 rounds of IXFR/TCP might not be useful */ xfrd_set_timer(zone, xfrd->tcp_set->tcp_timeout); xfrd_tcp_obtain(xfrd->tcp_set, zone); } } else if (zone->master->use_axfr_only || zone->soa_disk_acquired <= 0) { xfrd_set_timer(zone, xfrd->tcp_set->tcp_timeout); xfrd_tcp_obtain(xfrd->tcp_set, zone); } else if (zone->master->ixfr_disabled) { if (zone->zone_options->pattern->allow_axfr_fallback) { xfrd_set_timer(zone, xfrd->tcp_set->tcp_timeout); xfrd_tcp_obtain(xfrd->tcp_set, zone); } else { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd zone %s axfr " "fallback not allowed, skipping master %s.", zone->apex_str, zone->master->ip_address_spec)); } } } static void xfrd_udp_obtain(xfrd_zone_type* zone) { assert(zone->udp_waiting == 0); if(zone->tcp_conn != -1) { /* no tcp and udp at the same time */ xfrd_tcp_release(xfrd->tcp_set, zone); } if(xfrd->udp_use_num < XFRD_MAX_UDP) { int fd; xfrd->udp_use_num++; fd = xfrd_send_ixfr_request_udp(zone); if(fd == -1) xfrd->udp_use_num--; else { if(zone->event_added) event_del(&zone->zone_handler); event_set(&zone->zone_handler, fd, EV_PERSIST|EV_READ|EV_TIMEOUT, xfrd_handle_zone, zone); if(event_base_set(xfrd->event_base, &zone->zone_handler) != 0) log_msg(LOG_ERR, "xfrd udp: event_base_set failed"); if(event_add(&zone->zone_handler, &zone->timeout) != 0) log_msg(LOG_ERR, "xfrd udp: event_add failed"); zone->zone_handler_flags=EV_PERSIST|EV_READ|EV_TIMEOUT; zone->event_added = 1; } return; } /* queue the zone as last */ zone->udp_waiting = 1; zone->udp_waiting_next = NULL; zone->udp_waiting_prev = xfrd->udp_waiting_last; if(!xfrd->udp_waiting_first) xfrd->udp_waiting_first = zone; if(xfrd->udp_waiting_last) xfrd->udp_waiting_last->udp_waiting_next = zone; xfrd->udp_waiting_last = zone; xfrd_unset_timer(zone); } time_t xfrd_time() { if(!xfrd->got_time) { xfrd->current_time = time(0); xfrd->got_time = 1; } return xfrd->current_time; } void xfrd_copy_soa(xfrd_soa_type* soa, rr_type* rr) { const uint8_t* rr_ns_wire = dname_name(domain_dname(rdata_atom_domain(rr->rdatas[0]))); uint8_t rr_ns_len = domain_dname(rdata_atom_domain(rr->rdatas[0]))->name_size; const uint8_t* rr_em_wire = dname_name(domain_dname(rdata_atom_domain(rr->rdatas[1]))); uint8_t rr_em_len = domain_dname(rdata_atom_domain(rr->rdatas[1]))->name_size; if(rr->type != TYPE_SOA || rr->rdata_count != 7) { log_msg(LOG_ERR, "xfrd: copy_soa called with bad rr, type %d rrs %u.", rr->type, rr->rdata_count); return; } DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: copy_soa rr, type %d rrs %u, ttl %u.", (int)rr->type, (unsigned)rr->rdata_count, (unsigned)rr->ttl)); soa->type = htons(rr->type); soa->klass = htons(rr->klass); soa->ttl = htonl(rr->ttl); soa->rdata_count = htons(rr->rdata_count); /* copy dnames */ soa->prim_ns[0] = rr_ns_len; memcpy(soa->prim_ns+1, rr_ns_wire, rr_ns_len); soa->email[0] = rr_em_len; memcpy(soa->email+1, rr_em_wire, rr_em_len); /* already in network format */ memcpy(&soa->serial, rdata_atom_data(rr->rdatas[2]), sizeof(uint32_t)); memcpy(&soa->refresh, rdata_atom_data(rr->rdatas[3]), sizeof(uint32_t)); memcpy(&soa->retry, rdata_atom_data(rr->rdatas[4]), sizeof(uint32_t)); memcpy(&soa->expire, rdata_atom_data(rr->rdatas[5]), sizeof(uint32_t)); memcpy(&soa->minimum, rdata_atom_data(rr->rdatas[6]), sizeof(uint32_t)); DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: copy_soa rr, serial %u refresh %u retry %u expire %u", (unsigned)ntohl(soa->serial), (unsigned)ntohl(soa->refresh), (unsigned)ntohl(soa->retry), (unsigned)ntohl(soa->expire))); } static void xfrd_set_zone_state(xfrd_zone_type* zone, enum xfrd_zone_state s) { if(s != zone->state) { enum xfrd_zone_state old = zone->state; zone->state = s; if((s == xfrd_zone_expired || old == xfrd_zone_expired) && s!=old) { xfrd_send_expire_notification(zone); } } } void xfrd_set_refresh_now(xfrd_zone_type* zone) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd zone %s is activated, state %d", zone->apex_str, zone->state)); if(!zone->is_activated) { /* push onto list */ zone->activated_prev = 0; zone->activated_next = xfrd->activated_first; if(xfrd->activated_first) xfrd->activated_first->activated_prev = zone; xfrd->activated_first = zone; zone->is_activated = 1; } } void xfrd_unset_timer(xfrd_zone_type* zone) { assert(zone->zone_handler.ev_fd == -1); if(zone->event_added) event_del(&zone->zone_handler); zone->zone_handler_flags = 0; zone->event_added = 0; } void xfrd_set_timer(xfrd_zone_type* zone, time_t t) { int fd = zone->zone_handler.ev_fd; int fl = ((fd == -1)?EV_TIMEOUT:zone->zone_handler_flags); /* randomize the time, within 90%-100% of original */ /* not later so zones cannot expire too late */ /* only for times far in the future */ if(t > 10) { time_t base = t*9/10; #ifdef HAVE_ARC4RANDOM_UNIFORM t = base + arc4random_uniform(t-base); #elif HAVE_ARC4RANDOM t = base + arc4random() % (t-base); #else t = base + random()%(t-base); #endif } /* keep existing flags and fd, but re-add with timeout */ if(zone->event_added) event_del(&zone->zone_handler); else fd = -1; zone->timeout.tv_sec = t; zone->timeout.tv_usec = 0; event_set(&zone->zone_handler, fd, fl, xfrd_handle_zone, zone); if(event_base_set(xfrd->event_base, &zone->zone_handler) != 0) log_msg(LOG_ERR, "xfrd timer: event_base_set failed"); if(event_add(&zone->zone_handler, &zone->timeout) != 0) log_msg(LOG_ERR, "xfrd timer: event_add failed"); zone->zone_handler_flags = fl; zone->event_added = 1; } void xfrd_handle_incoming_soa(xfrd_zone_type* zone, xfrd_soa_type* soa, time_t acquired) { if(soa == NULL) { /* nsd no longer has a zone in memory */ zone->soa_nsd_acquired = 0; xfrd_set_zone_state(zone, xfrd_zone_refreshing); xfrd_set_refresh_now(zone); return; } if(zone->soa_nsd_acquired && soa->serial == zone->soa_nsd.serial) return; if(zone->soa_disk_acquired && soa->serial == zone->soa_disk.serial) { /* soa in disk has been loaded in memory */ log_msg(LOG_INFO, "zone %s serial %u is updated to %u.", zone->apex_str, (unsigned)ntohl(zone->soa_nsd.serial), (unsigned)ntohl(soa->serial)); zone->soa_nsd = zone->soa_disk; zone->soa_nsd_acquired = zone->soa_disk_acquired; xfrd->write_zonefile_needed = 1; /* reset exponential backoff, we got a normal timer now */ zone->fresh_xfr_timeout = 0; if(xfrd_time() - zone->soa_disk_acquired < (time_t)ntohl(zone->soa_disk.refresh)) { /* zone ok, wait for refresh time */ xfrd_set_zone_state(zone, xfrd_zone_ok); zone->round_num = -1; xfrd_set_timer_refresh(zone); } else if(xfrd_time() - zone->soa_disk_acquired < (time_t)ntohl(zone->soa_disk.expire)) { /* zone refreshing */ xfrd_set_zone_state(zone, xfrd_zone_refreshing); xfrd_set_refresh_now(zone); } if(xfrd_time() - zone->soa_disk_acquired >= (time_t)ntohl(zone->soa_disk.expire)) { /* zone expired */ xfrd_set_zone_state(zone, xfrd_zone_expired); xfrd_set_refresh_now(zone); } if(zone->soa_notified_acquired != 0 && (zone->soa_notified.serial == 0 || compare_serial(ntohl(zone->soa_disk.serial), ntohl(zone->soa_notified.serial)) >= 0)) { /* read was in response to this notification */ zone->soa_notified_acquired = 0; } if(zone->soa_notified_acquired && zone->state == xfrd_zone_ok) { /* refresh because of notification */ xfrd_set_zone_state(zone, xfrd_zone_refreshing); xfrd_set_refresh_now(zone); } xfrd_send_notify(xfrd->notify_zones, zone->apex, &zone->soa_nsd); return; } /* user must have manually provided zone data */ DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s serial %u from zonefile. refreshing", zone->apex_str, (unsigned)ntohl(soa->serial))); zone->soa_nsd = *soa; zone->soa_disk = *soa; zone->soa_nsd_acquired = acquired; zone->soa_disk_acquired = acquired; if(zone->soa_notified_acquired != 0 && (zone->soa_notified.serial == 0 || compare_serial(ntohl(zone->soa_disk.serial), ntohl(zone->soa_notified.serial)) >= 0)) { /* user provided in response to this notification */ zone->soa_notified_acquired = 0; } xfrd_set_zone_state(zone, xfrd_zone_refreshing); xfrd_set_refresh_now(zone); xfrd_send_notify(xfrd->notify_zones, zone->apex, &zone->soa_nsd); } void xfrd_send_expire_notification(xfrd_zone_type* zone) { task_new_expire(xfrd->nsd->task[xfrd->nsd->mytask], xfrd->last_task, zone->apex, zone->state == xfrd_zone_expired); xfrd_set_reload_timeout(); } int xfrd_udp_read_packet(buffer_type* packet, int fd) { ssize_t received; /* read the data */ buffer_clear(packet); received = recvfrom(fd, buffer_begin(packet), buffer_remaining(packet), 0, NULL, NULL); if(received == -1) { log_msg(LOG_ERR, "xfrd: recvfrom failed: %s", strerror(errno)); return 0; } buffer_set_limit(packet, received); return 1; } void xfrd_udp_release(xfrd_zone_type* zone) { assert(zone->udp_waiting == 0); if(zone->event_added) event_del(&zone->zone_handler); if(zone->zone_handler.ev_fd != -1) { close(zone->zone_handler.ev_fd); } zone->zone_handler.ev_fd = -1; zone->zone_handler_flags = 0; zone->event_added = 0; /* see if there are waiting zones */ if(xfrd->udp_use_num == XFRD_MAX_UDP) { while(xfrd->udp_waiting_first) { /* snip off waiting list */ xfrd_zone_type* wz = xfrd->udp_waiting_first; assert(wz->udp_waiting); wz->udp_waiting = 0; xfrd->udp_waiting_first = wz->udp_waiting_next; if(wz->udp_waiting_next) wz->udp_waiting_next->udp_waiting_prev = NULL; if(xfrd->udp_waiting_last == wz) xfrd->udp_waiting_last = NULL; /* see if this zone needs udp connection */ if(wz->tcp_conn == -1) { int fd = xfrd_send_ixfr_request_udp(wz); if(fd != -1) { if(wz->event_added) event_del(&wz->zone_handler); event_set(&wz->zone_handler, fd, EV_READ|EV_TIMEOUT|EV_PERSIST, xfrd_handle_zone, wz); if(event_base_set(xfrd->event_base, &wz->zone_handler) != 0) log_msg(LOG_ERR, "cannot set event_base for ixfr"); if(event_add(&wz->zone_handler, &wz->timeout) != 0) log_msg(LOG_ERR, "cannot add event for ixfr"); wz->zone_handler_flags = EV_READ|EV_TIMEOUT|EV_PERSIST; wz->event_added = 1; return; } else { /* make this zone do something with * this failure to act */ xfrd_set_refresh_now(wz); } } } } /* no waiting zones */ if(xfrd->udp_use_num > 0) xfrd->udp_use_num--; } /** disable ixfr for master */ void xfrd_disable_ixfr(xfrd_zone_type* zone) { if(!(zone->master->ixfr_disabled && (zone->master->ixfr_disabled + XFRD_NO_IXFR_CACHE) <= time(NULL))) { /* start new round, with IXFR disabled */ zone->round_num = 0; zone->next_master = zone->master_num; } zone->master->ixfr_disabled = time(NULL); } static void xfrd_udp_read(xfrd_zone_type* zone) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s read udp data", zone->apex_str)); if(!xfrd_udp_read_packet(xfrd->packet, zone->zone_handler.ev_fd)) { zone->master->bad_xfr_count++; if (zone->master->bad_xfr_count > 2) { xfrd_disable_ixfr(zone); zone->master->bad_xfr_count = 0; } /* drop packet */ xfrd_udp_release(zone); /* query next server */ xfrd_make_request(zone); return; } switch(xfrd_handle_received_xfr_packet(zone, xfrd->packet)) { case xfrd_packet_tcp: xfrd_set_timer(zone, xfrd->tcp_set->tcp_timeout); xfrd_udp_release(zone); xfrd_tcp_obtain(xfrd->tcp_set, zone); break; case xfrd_packet_transfer: if(zone->zone_options->pattern->multi_master_check) { xfrd_udp_release(zone); xfrd_make_request(zone); break; } case xfrd_packet_newlease: /* nothing more to do */ assert(zone->round_num == -1); xfrd_udp_release(zone); break; case xfrd_packet_notimpl: xfrd_disable_ixfr(zone); /* drop packet */ xfrd_udp_release(zone); /* query next server */ xfrd_make_request(zone); break; case xfrd_packet_more: case xfrd_packet_drop: /* drop packet */ xfrd_udp_release(zone); /* query next server */ xfrd_make_request(zone); break; case xfrd_packet_bad: default: zone->master->bad_xfr_count++; if (zone->master->bad_xfr_count > 2) { xfrd_disable_ixfr(zone); zone->master->bad_xfr_count = 0; } /* drop packet */ xfrd_udp_release(zone); /* query next server */ xfrd_make_request(zone); break; } } int xfrd_send_udp(struct acl_options* acl, buffer_type* packet, struct acl_options* ifc) { #ifdef INET6 struct sockaddr_storage to; #else struct sockaddr_in to; #endif /* INET6 */ int fd, family; /* this will set the remote port to acl->port or TCP_PORT */ socklen_t to_len = xfrd_acl_sockaddr_to(acl, &to); /* get the address family of the remote host */ if(acl->is_ipv6) { #ifdef INET6 family = PF_INET6; #else return -1; #endif /* INET6 */ } else { family = PF_INET; } fd = socket(family, SOCK_DGRAM, IPPROTO_UDP); if(fd == -1) { log_msg(LOG_ERR, "xfrd: cannot create udp socket to %s: %s", acl->ip_address_spec, strerror(errno)); return -1; } /* bind it */ if (!xfrd_bind_local_interface(fd, ifc, acl, 0)) { log_msg(LOG_ERR, "xfrd: cannot bind outgoing interface '%s' to " "udp socket: No matching ip addresses found", ifc->ip_address_spec); close(fd); return -1; } /* send it (udp) */ if(sendto(fd, buffer_current(packet), buffer_remaining(packet), 0, (struct sockaddr*)&to, to_len) == -1) { log_msg(LOG_ERR, "xfrd: sendto %s failed %s", acl->ip_address_spec, strerror(errno)); close(fd); return -1; } return fd; } int xfrd_bind_local_interface(int sockd, struct acl_options* ifc, struct acl_options* acl, int tcp) { #ifdef SO_LINGER struct linger linger = {1, 0}; #endif socklen_t frm_len; #ifdef INET6 struct sockaddr_storage frm; #else struct sockaddr_in frm; #endif /* INET6 */ int ret = 1; if (!ifc) /* no outgoing interface set */ return 1; while (ifc) { if (ifc->is_ipv6 != acl->is_ipv6) { /* check if we have a matching address family */ ifc = ifc->next; continue; } DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: bind() %s to %s socket", ifc->ip_address_spec, tcp? "tcp":"udp")); ret = 0; frm_len = xfrd_acl_sockaddr_frm(ifc, &frm); if (tcp) { #ifdef SO_REUSEADDR if (setsockopt(sockd, SOL_SOCKET, SO_REUSEADDR, &frm, frm_len) < 0) { VERBOSITY(2, (LOG_WARNING, "xfrd: setsockopt " "SO_REUSEADDR failed: %s", strerror(errno))); } #else VERBOSITY(2, (LOG_WARNING, "xfrd: setsockopt SO_REUSEADDR " "failed: SO_REUSEADDR not defined")); #endif /* SO_REUSEADDR */ if (ifc->port != 0) { #ifdef SO_LINGER if (setsockopt(sockd, SOL_SOCKET, SO_LINGER, &linger, sizeof(linger)) < 0) { VERBOSITY(2, (LOG_WARNING, "xfrd: setsockopt " "SO_LINGER failed: %s", strerror(errno))); } #else VERBOSITY(2, (LOG_WARNING, "xfrd: setsockopt SO_LINGER " "failed: SO_LINGER not defined")); #endif /* SO_LINGER */ } } /* found one */ if(bind(sockd, (struct sockaddr*)&frm, frm_len) >= 0) { DEBUG(DEBUG_XFRD,2, (LOG_INFO, "xfrd: bind() %s to %s " "socket was successful", ifc->ip_address_spec, tcp? "tcp":"udp")); return 1; } DEBUG(DEBUG_XFRD,2, (LOG_INFO, "xfrd: bind() %s to %s socket" "failed: %s", ifc->ip_address_spec, tcp? "tcp":"udp", strerror(errno))); log_msg(LOG_WARNING, "xfrd: could not bind source address:port to " "socket: %s", strerror(errno)); /* try another */ ifc = ifc->next; } return ret; } void xfrd_tsig_sign_request(buffer_type* packet, tsig_record_type* tsig, struct acl_options* acl) { tsig_algorithm_type* algo; assert(acl->key_options && acl->key_options->tsig_key); algo = tsig_get_algorithm_by_name(acl->key_options->algorithm); if(!algo) { log_msg(LOG_ERR, "tsig unknown algorithm %s", acl->key_options->algorithm); return; } assert(algo); tsig_init_record(tsig, algo, acl->key_options->tsig_key); tsig_init_query(tsig, ID(packet)); tsig_prepare(tsig); tsig_update(tsig, packet, buffer_position(packet)); tsig_sign(tsig); tsig_append_rr(tsig, packet); ARCOUNT_SET(packet, ARCOUNT(packet) + 1); DEBUG(DEBUG_XFRD,1, (LOG_INFO, "appending tsig to packet")); /* prepare for validating tsigs */ tsig_prepare(tsig); } static int xfrd_send_ixfr_request_udp(xfrd_zone_type* zone) { int fd; /* make sure we have a master to query the ixfr request to */ assert(zone->master); if(zone->tcp_conn != -1) { /* tcp is using the zone_handler.fd */ log_msg(LOG_ERR, "xfrd: %s tried to send udp whilst tcp engaged", zone->apex_str); return -1; } xfrd_setup_packet(xfrd->packet, TYPE_IXFR, CLASS_IN, zone->apex, qid_generate()); zone->query_id = ID(xfrd->packet); /* delete old xfr file? */ if(zone->msg_seq_nr) xfrd_unlink_xfrfile(xfrd->nsd, zone->xfrfilenumber); zone->msg_seq_nr = 0; zone->msg_rr_count = 0; DEBUG(DEBUG_XFRD,1, (LOG_INFO, "sent query with ID %d", zone->query_id)); NSCOUNT_SET(xfrd->packet, 1); xfrd_write_soa_buffer(xfrd->packet, zone->apex, &zone->soa_disk); /* if we have tsig keys, sign the ixfr query */ if(zone->master->key_options && zone->master->key_options->tsig_key) { xfrd_tsig_sign_request(xfrd->packet, &zone->tsig, zone->master); } buffer_flip(xfrd->packet); xfrd_set_timer(zone, XFRD_UDP_TIMEOUT); if((fd = xfrd_send_udp(zone->master, xfrd->packet, zone->zone_options->pattern->outgoing_interface)) == -1) return -1; DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd sent udp request for ixfr=%u for zone %s to %s", (unsigned)ntohl(zone->soa_disk.serial), zone->apex_str, zone->master->ip_address_spec)); return fd; } static int xfrd_parse_soa_info(buffer_type* packet, xfrd_soa_type* soa) { if(!buffer_available(packet, 10)) return 0; soa->type = htons(buffer_read_u16(packet)); soa->klass = htons(buffer_read_u16(packet)); soa->ttl = htonl(buffer_read_u32(packet)); if(ntohs(soa->type) != TYPE_SOA || ntohs(soa->klass) != CLASS_IN) { return 0; } if(!buffer_available(packet, buffer_read_u16(packet)) /* rdata length */ || !(soa->prim_ns[0] = dname_make_wire_from_packet(soa->prim_ns+1, packet, 1)) || !(soa->email[0] = dname_make_wire_from_packet(soa->email+1, packet, 1))) { return 0; } soa->rdata_count = 7; /* rdata in SOA */ soa->serial = htonl(buffer_read_u32(packet)); soa->refresh = htonl(buffer_read_u32(packet)); soa->retry = htonl(buffer_read_u32(packet)); soa->expire = htonl(buffer_read_u32(packet)); soa->minimum = htonl(buffer_read_u32(packet)); return 1; } /* * Check the RRs in an IXFR/AXFR reply. * returns 0 on error, 1 on correct parseable packet. * done = 1 if the last SOA in an IXFR/AXFR has been seen. * soa then contains that soa info. * (soa contents is modified by the routine) */ static int xfrd_xfr_check_rrs(xfrd_zone_type* zone, buffer_type* packet, size_t count, int *done, xfrd_soa_type* soa, region_type* temp) { /* first RR has already been checked */ uint32_t tmp_serial = 0; uint16_t type, rrlen; size_t i, soapos, mempos; const dname_type* dname; domain_table_type* owners; rdata_atom_type* rdatas; for(i=0; imsg_rr_count) { if (*done) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s xfr has " "trailing garbage", zone->apex_str)); return 0; } region_free_all(temp); owners = domain_table_create(temp); /* check the dname for errors */ dname = dname_make_from_packet(temp, packet, 1, 1); if(!dname) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s xfr unable " "to parse owner name", zone->apex_str)); return 0; } if(!buffer_available(packet, 10)) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s xfr hdr " "too small", zone->apex_str)); return 0; } soapos = buffer_position(packet); type = buffer_read_u16(packet); (void)buffer_read_u16(packet); /* class */ (void)buffer_read_u32(packet); /* ttl */ rrlen = buffer_read_u16(packet); if(!buffer_available(packet, rrlen)) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s xfr pkt " "too small", zone->apex_str)); return 0; } mempos = buffer_position(packet); if(rdata_wireformat_to_rdata_atoms(temp, owners, type, rrlen, packet, &rdatas) == -1) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s xfr unable " "to parse rdata", zone->apex_str)); return 0; } if(type == TYPE_SOA) { /* check the SOAs */ buffer_set_position(packet, soapos); if(!xfrd_parse_soa_info(packet, soa)) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s xfr " "unable to parse soainfo", zone->apex_str)); return 0; } if(zone->msg_rr_count == 1 && ntohl(soa->serial) != zone->msg_new_serial) { /* 2nd RR is SOA with lower serial, this is an IXFR */ zone->msg_is_ixfr = 1; if(!zone->soa_disk_acquired) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s xfr " "got ixfr but need axfr", zone->apex_str)); return 0; /* got IXFR but need AXFR */ } if(ntohl(soa->serial) != ntohl(zone->soa_disk.serial)) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s xfr " "bad start serial", zone->apex_str)); return 0; /* bad start serial in IXFR */ } zone->msg_old_serial = ntohl(soa->serial); tmp_serial = ntohl(soa->serial); } else if(ntohl(soa->serial) == zone->msg_new_serial) { /* saw another SOA of new serial. */ if(zone->msg_is_ixfr == 1) { zone->msg_is_ixfr = 2; /* seen middle SOA in ixfr */ } else { /* 2nd SOA for AXFR or 3rd newSOA for IXFR */ *done = 1; } } else if (zone->msg_is_ixfr) { /* some additional checks */ if(ntohl(soa->serial) > zone->msg_new_serial) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s xfr " "bad middle serial", zone->apex_str)); return 0; /* bad middle serial in IXFR */ } if(ntohl(soa->serial) < tmp_serial) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s xfr " "serial decreasing not allowed", zone->apex_str)); return 0; /* middle serial decreases in IXFR */ } /* serial ok, update tmp serial */ tmp_serial = ntohl(soa->serial); } } buffer_set_position(packet, mempos); buffer_skip(packet, rrlen); } /* packet seems to have a valid DNS RR structure */ return 1; } static int xfrd_xfr_process_tsig(xfrd_zone_type* zone, buffer_type* packet) { int have_tsig = 0; assert(zone && zone->master && zone->master->key_options && zone->master->key_options->tsig_key && packet); if(!tsig_find_rr(&zone->tsig, packet)) { log_msg(LOG_ERR, "xfrd: zone %s, from %s: malformed tsig RR", zone->apex_str, zone->master->ip_address_spec); return 0; } if(zone->tsig.status == TSIG_OK) { have_tsig = 1; if (zone->tsig.error_code != TSIG_ERROR_NOERROR) { log_msg(LOG_ERR, "xfrd: zone %s, from %s: tsig error " "(%s)", zone->apex_str, zone->master->ip_address_spec, tsig_error(zone->tsig.error_code)); } } if(have_tsig) { /* strip the TSIG resource record off... */ buffer_set_limit(packet, zone->tsig.position); ARCOUNT_SET(packet, ARCOUNT(packet) - 1); } /* keep running the TSIG hash */ tsig_update(&zone->tsig, packet, buffer_limit(packet)); if(have_tsig) { if (!tsig_verify(&zone->tsig)) { log_msg(LOG_ERR, "xfrd: zone %s, from %s: bad tsig signature", zone->apex_str, zone->master->ip_address_spec); return 0; } DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s, from %s: good tsig signature", zone->apex_str, zone->master->ip_address_spec)); /* prepare for next tsigs */ tsig_prepare(&zone->tsig); } else if(zone->tsig.updates_since_last_prepare > XFRD_TSIG_MAX_UNSIGNED) { /* we allow a number of non-tsig signed packets */ log_msg(LOG_INFO, "xfrd: zone %s, from %s: too many consecutive " "packets without TSIG", zone->apex_str, zone->master->ip_address_spec); return 0; } if(!have_tsig && zone->msg_seq_nr == 0) { log_msg(LOG_ERR, "xfrd: zone %s, from %s: no tsig in first packet of reply", zone->apex_str, zone->master->ip_address_spec); return 0; } return 1; } /* parse the received packet. returns xfrd packet result code. */ static enum xfrd_packet_result xfrd_parse_received_xfr_packet(xfrd_zone_type* zone, buffer_type* packet, xfrd_soa_type* soa) { size_t rr_count; size_t qdcount = QDCOUNT(packet); size_t ancount = ANCOUNT(packet), ancount_todo; size_t nscount = NSCOUNT(packet); int done = 0; region_type* tempregion = NULL; /* has to be axfr / ixfr reply */ if(!buffer_available(packet, QHEADERSZ)) { log_msg(LOG_INFO, "packet too small"); return xfrd_packet_bad; } /* only check ID in first response message. Could also check that * AA bit and QR bit are set, but not needed. */ DEBUG(DEBUG_XFRD,2, (LOG_INFO, "got query with ID %d and %d needed", ID(packet), zone->query_id)); if(ID(packet) != zone->query_id) { log_msg(LOG_ERR, "xfrd: zone %s received bad query id from %s, " "dropped", zone->apex_str, zone->master->ip_address_spec); return xfrd_packet_bad; } /* check RCODE in all response messages */ if(RCODE(packet) != RCODE_OK) { log_msg(LOG_ERR, "xfrd: zone %s received error code %s from " "%s", zone->apex_str, rcode2str(RCODE(packet)), zone->master->ip_address_spec); if (RCODE(packet) == RCODE_IMPL || RCODE(packet) == RCODE_FORMAT) { return xfrd_packet_notimpl; } if (RCODE(packet) != RCODE_NOTAUTH) { /* RFC 2845: If NOTAUTH, client should do TSIG checking */ return xfrd_packet_drop; } } /* check TSIG */ if(zone->master->key_options) { if(!xfrd_xfr_process_tsig(zone, packet)) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "dropping xfr reply due " "to bad TSIG")); return xfrd_packet_bad; } } if (RCODE(packet) == RCODE_NOTAUTH) { return xfrd_packet_drop; } buffer_skip(packet, QHEADERSZ); /* skip question section */ for(rr_count = 0; rr_count < qdcount; ++rr_count) { if (!packet_skip_rr(packet, 1)) { log_msg(LOG_ERR, "xfrd: zone %s, from %s: bad RR in " "question section", zone->apex_str, zone->master->ip_address_spec); return xfrd_packet_bad; } } if(zone->msg_rr_count == 0 && ancount == 0) { if(zone->tcp_conn == -1 && TC(packet)) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: TC flagged")); return xfrd_packet_tcp; } DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: too short xfr packet: no " "answer")); /* if IXFR is unknown, fallback to AXFR (if allowed) */ if (nscount == 1) { if(!packet_skip_dname(packet) || !xfrd_parse_soa_info(packet, soa)) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s, from %s: " "no SOA begins authority section", zone->apex_str, zone->master->ip_address_spec)); return xfrd_packet_bad; } return xfrd_packet_notimpl; } return xfrd_packet_bad; } ancount_todo = ancount; tempregion = region_create(xalloc, free); if(zone->msg_rr_count == 0) { const dname_type* soaname = dname_make_from_packet(tempregion, packet, 1, 1); if(!soaname) { /* parse failure */ DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s, from %s: " "parse error in SOA record", zone->apex_str, zone->master->ip_address_spec)); region_destroy(tempregion); return xfrd_packet_bad; } if(dname_compare(soaname, zone->apex) != 0) { /* wrong name */ DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s, from %s: " "wrong SOA record", zone->apex_str, zone->master->ip_address_spec)); region_destroy(tempregion); return xfrd_packet_bad; } /* parse the first RR, see if it is a SOA */ if(!xfrd_parse_soa_info(packet, soa)) { DEBUG(DEBUG_XFRD,1, (LOG_ERR, "xfrd: zone %s, from %s: " "bad SOA rdata", zone->apex_str, zone->master->ip_address_spec)); region_destroy(tempregion); return xfrd_packet_bad; } if(zone->soa_disk_acquired != 0 && zone->state != xfrd_zone_expired /* if expired - accept anything */ && compare_serial(ntohl(soa->serial), ntohl(zone->soa_disk.serial)) < 0) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s ignoring old serial from %s", zone->apex_str, zone->master->ip_address_spec)); VERBOSITY(1, (LOG_INFO, "xfrd: zone %s ignoring old serial from %s", zone->apex_str, zone->master->ip_address_spec)); region_destroy(tempregion); return xfrd_packet_bad; } if(zone->soa_disk_acquired != 0 && zone->soa_disk.serial == soa->serial) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s got " "update indicating " "current serial", zone->apex_str)); /* (even if notified) the lease on the current soa is renewed */ zone->soa_disk_acquired = xfrd_time(); if(zone->soa_nsd.serial == soa->serial) zone->soa_nsd_acquired = xfrd_time(); xfrd_set_zone_state(zone, xfrd_zone_ok); DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s is ok", zone->apex_str)); if(zone->zone_options->pattern->multi_master_check) { region_destroy(tempregion); return xfrd_packet_drop; } if(zone->soa_notified_acquired == 0) { /* not notified or anything, so stop asking around */ zone->round_num = -1; /* next try start a new round */ xfrd_set_timer_refresh(zone); region_destroy(tempregion); return xfrd_packet_newlease; } /* try next master */ region_destroy(tempregion); return xfrd_packet_drop; } DEBUG(DEBUG_XFRD,1, (LOG_INFO, "IXFR reply has ok serial (have \ %u, reply %u).", (unsigned)ntohl(zone->soa_disk.serial), (unsigned)ntohl(soa->serial))); /* serial is newer than soa_disk */ if(ancount == 1) { /* single record means it is like a notify */ (void)xfrd_handle_incoming_notify(zone, soa); } else if(zone->soa_notified_acquired && zone->soa_notified.serial && compare_serial(ntohl(zone->soa_notified.serial), ntohl(soa->serial)) < 0) { /* this AXFR/IXFR notifies me that an even newer serial exists */ zone->soa_notified.serial = soa->serial; } zone->msg_new_serial = ntohl(soa->serial); zone->msg_rr_count = 1; zone->msg_is_ixfr = 0; if(zone->soa_disk_acquired) zone->msg_old_serial = ntohl(zone->soa_disk.serial); else zone->msg_old_serial = 0; ancount_todo = ancount - 1; } if(zone->tcp_conn == -1 && TC(packet)) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s received TC from %s. retry tcp.", zone->apex_str, zone->master->ip_address_spec)); region_destroy(tempregion); return xfrd_packet_tcp; } if(zone->tcp_conn == -1 && ancount < 2) { /* too short to be a real ixfr/axfr data transfer: need at */ /* least two RRs in the answer section. */ /* The serial is newer, so try tcp to this master. */ DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: udp reply is short. Try " "tcp anyway.")); region_destroy(tempregion); return xfrd_packet_tcp; } if(!xfrd_xfr_check_rrs(zone, packet, ancount_todo, &done, soa, tempregion)) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s sent bad xfr " "reply.", zone->apex_str)); region_destroy(tempregion); return xfrd_packet_bad; } region_destroy(tempregion); if(zone->tcp_conn == -1 && done == 0) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: udp reply incomplete")); return xfrd_packet_bad; } if(done == 0) return xfrd_packet_more; if(zone->master->key_options) { if(zone->tsig.updates_since_last_prepare != 0) { log_msg(LOG_INFO, "xfrd: last packet of reply has no " "TSIG"); return xfrd_packet_bad; } } return xfrd_packet_transfer; } const char* xfrd_pretty_time(time_t v) { struct tm* tm = localtime(&v); static char buf[64]; if(!strftime(buf, sizeof(buf), "%Y-%m-%dT%H:%M:%S", tm)) snprintf(buf, sizeof(buf), "strftime-err-%u", (unsigned)v); return buf; } enum xfrd_packet_result xfrd_handle_received_xfr_packet(xfrd_zone_type* zone, buffer_type* packet) { xfrd_soa_type soa; enum xfrd_packet_result res; uint64_t xfrfile_size; /* parse and check the packet - see if it ends the xfr */ switch((res=xfrd_parse_received_xfr_packet(zone, packet, &soa))) { case xfrd_packet_more: case xfrd_packet_transfer: /* continue with commit */ break; case xfrd_packet_newlease: return xfrd_packet_newlease; case xfrd_packet_tcp: return xfrd_packet_tcp; case xfrd_packet_notimpl: case xfrd_packet_bad: case xfrd_packet_drop: default: { /* rollback */ if(zone->msg_seq_nr > 0) { /* do not process xfr - if only one part simply ignore it. */ /* delete file with previous parts of commit */ xfrd_unlink_xfrfile(xfrd->nsd, zone->xfrfilenumber); VERBOSITY(1, (LOG_INFO, "xfrd: zone %s " "reverted transfer %u from %s", zone->apex_str, zone->msg_rr_count? (int)zone->msg_new_serial:0, zone->master->ip_address_spec)); zone->msg_seq_nr = 0; } else if (res == xfrd_packet_bad) { VERBOSITY(1, (LOG_INFO, "xfrd: zone %s " "bad transfer %u from %s", zone->apex_str, zone->msg_rr_count? (int)zone->msg_new_serial:0, zone->master->ip_address_spec)); } if (res == xfrd_packet_notimpl) return res; else return xfrd_packet_bad; } } /* dump reply on disk to diff file */ /* if first part, get new filenumber. Numbers can wrap around, 64bit * is enough so we do not collide with older-transfers-in-progress */ if(zone->msg_seq_nr == 0) zone->xfrfilenumber = xfrd->xfrfilenumber++; diff_write_packet(dname_to_string(zone->apex,0), zone->zone_options->pattern->pname, zone->msg_old_serial, zone->msg_new_serial, zone->msg_seq_nr, buffer_begin(packet), buffer_limit(packet), xfrd->nsd, zone->xfrfilenumber); VERBOSITY(3, (LOG_INFO, "xfrd: zone %s written received XFR packet from %s with serial %u to " "disk", zone->apex_str, zone->master->ip_address_spec, (int)zone->msg_new_serial)); zone->msg_seq_nr++; xfrfile_size = xfrd_get_xfrfile_size(xfrd->nsd, zone->xfrfilenumber); if( zone->zone_options->pattern->size_limit_xfr != 0 && xfrfile_size > zone->zone_options->pattern->size_limit_xfr ) { /* xfrd_unlink_xfrfile(xfrd->nsd, zone->xfrfilenumber); xfrd_set_reload_timeout(); */ log_msg(LOG_INFO, "xfrd : transferred zone data was too large %llu", (long long unsigned)xfrfile_size); return xfrd_packet_bad; } if(res == xfrd_packet_more) { /* wait for more */ return xfrd_packet_more; } /* done. we are completely sure of this */ buffer_clear(packet); buffer_printf(packet, "received update to serial %u at %s from %s", (unsigned)zone->msg_new_serial, xfrd_pretty_time(xfrd_time()), zone->master->ip_address_spec); if(zone->master->key_options) { buffer_printf(packet, " TSIG verified with key %s", zone->master->key_options->name); } buffer_flip(packet); diff_write_commit(zone->apex_str, zone->msg_old_serial, zone->msg_new_serial, zone->msg_seq_nr, 1, (char*)buffer_begin(packet), xfrd->nsd, zone->xfrfilenumber); VERBOSITY(1, (LOG_INFO, "xfrd: zone %s committed \"%s\"", zone->apex_str, (char*)buffer_begin(packet))); /* reset msg seq nr, so if that is nonnull we know xfr file exists */ zone->msg_seq_nr = 0; /* now put apply_xfr task on the tasklist */ if(!task_new_apply_xfr(xfrd->nsd->task[xfrd->nsd->mytask], xfrd->last_task, zone->apex, zone->msg_old_serial, zone->msg_new_serial, zone->xfrfilenumber)) { /* delete the file and pretend transfer was bad to continue */ xfrd_unlink_xfrfile(xfrd->nsd, zone->xfrfilenumber); xfrd_set_reload_timeout(); return xfrd_packet_bad; } /* update the disk serial no. */ zone->soa_disk_acquired = xfrd_time(); zone->soa_disk = soa; if(zone->soa_notified_acquired && ( zone->soa_notified.serial == 0 || compare_serial(htonl(zone->soa_disk.serial), htonl(zone->soa_notified.serial)) >= 0)) { zone->soa_notified_acquired = 0; } if(!zone->soa_notified_acquired) { /* do not set expired zone to ok: * it would cause nsd to start answering * bad data, since the zone is not loaded yet. * if nsd does not reload < retry time, more * queries (for even newer versions) are made. * For expired zone after reload it is set ok (SOAINFO ipc). */ if(zone->state != xfrd_zone_expired) xfrd_set_zone_state(zone, xfrd_zone_ok); DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s is waiting for reload", zone->apex_str)); if(zone->zone_options->pattern->multi_master_check) { zone->multi_master_update_check = zone->master_num; xfrd_set_reload_timeout(); return xfrd_packet_transfer; } zone->round_num = -1; /* next try start anew */ xfrd_set_timer_refresh(zone); xfrd_set_reload_timeout(); return xfrd_packet_transfer; } else { /* try to get an even newer serial */ /* pretend it was bad to continue queries */ xfrd_set_reload_timeout(); return xfrd_packet_bad; } } static void xfrd_set_reload_timeout() { if(xfrd->nsd->options->xfrd_reload_timeout == -1) return; /* automatic reload disabled. */ if(xfrd->reload_timeout.tv_sec == 0 || xfrd_time() >= (time_t)xfrd->reload_timeout.tv_sec ) { /* no reload wait period (or it passed), do it right away */ xfrd_set_reload_now(xfrd); /* start reload wait period */ xfrd->reload_timeout.tv_sec = xfrd_time() + xfrd->nsd->options->xfrd_reload_timeout; xfrd->reload_timeout.tv_usec = 0; return; } /* cannot reload now, set that after the timeout a reload has to happen */ if(xfrd->reload_added == 0) { struct timeval tv; tv.tv_sec = xfrd->reload_timeout.tv_sec - xfrd_time(); tv.tv_usec = 0; if(tv.tv_sec > xfrd->nsd->options->xfrd_reload_timeout) tv.tv_sec = xfrd->nsd->options->xfrd_reload_timeout; event_set(&xfrd->reload_handler, -1, EV_TIMEOUT, xfrd_handle_reload, xfrd); if(event_base_set(xfrd->event_base, &xfrd->reload_handler) != 0) log_msg(LOG_ERR, "cannot set reload event base"); if(event_add(&xfrd->reload_handler, &tv) != 0) log_msg(LOG_ERR, "cannot add reload event"); xfrd->reload_added = 1; } } static void xfrd_handle_reload(int ATTR_UNUSED(fd), short event, void* ATTR_UNUSED(arg)) { /* reload timeout */ assert(event & EV_TIMEOUT); (void)event; /* timeout wait period after this request is sent */ xfrd->reload_added = 0; xfrd->reload_timeout.tv_sec = xfrd_time() + xfrd->nsd->options->xfrd_reload_timeout; xfrd_set_reload_now(xfrd); } void xfrd_handle_notify_and_start_xfr(xfrd_zone_type* zone, xfrd_soa_type* soa) { if(xfrd_handle_incoming_notify(zone, soa)) { if(zone->zone_handler.ev_fd == -1 && zone->tcp_conn == -1 && !zone->tcp_waiting && !zone->udp_waiting) { xfrd_set_refresh_now(zone); } /* zones with no content start expbackoff again; this is also * for nsd-control started transfer commands, and also when * the master apparently sends notifies (is back up) */ if(zone->soa_disk_acquired == 0) zone->fresh_xfr_timeout = XFRD_TRANSFER_TIMEOUT_START; } } void xfrd_handle_passed_packet(buffer_type* packet, int acl_num, int acl_num_xfr) { uint8_t qnamebuf[MAXDOMAINLEN]; uint16_t qtype, qclass; const dname_type* dname; region_type* tempregion = region_create(xalloc, free); xfrd_zone_type* zone; buffer_skip(packet, QHEADERSZ); if(!packet_read_query_section(packet, qnamebuf, &qtype, &qclass)) { region_destroy(tempregion); return; /* drop bad packet */ } dname = dname_make(tempregion, qnamebuf, 1); DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: got passed packet for %s, acl " "%d", dname_to_string(dname,0), acl_num)); /* find the zone */ zone = (xfrd_zone_type*)rbtree_search(xfrd->zones, dname); if(!zone) { /* this could be because the zone has been deleted meanwhile */ DEBUG(DEBUG_XFRD, 1, (LOG_INFO, "xfrd: incoming packet for " "unknown zone %s", dname_to_string(dname,0))); region_destroy(tempregion); return; /* drop packet for unknown zone */ } region_destroy(tempregion); /* handle */ if(OPCODE(packet) == OPCODE_NOTIFY) { xfrd_soa_type soa; int have_soa = 0; int next; /* get serial from a SOA */ if(ANCOUNT(packet) == 1 && packet_skip_dname(packet) && xfrd_parse_soa_info(packet, &soa)) { have_soa = 1; } xfrd_handle_notify_and_start_xfr(zone, have_soa?&soa:NULL); /* First, see if our notifier has a match in provide-xfr */ if (acl_find_num(zone->zone_options->pattern->request_xfr, acl_num_xfr)) next = acl_num_xfr; else /* If not, find master that matches notifiers ACL entry */ next = find_same_master_notify(zone, acl_num); if(next != -1) { zone->next_master = next; DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: notify set next master to query %d", next)); } } else { /* ignore other types of messages */ } } static int xfrd_handle_incoming_notify(xfrd_zone_type* zone, xfrd_soa_type* soa) { if(soa && zone->soa_disk_acquired && zone->state != xfrd_zone_expired && compare_serial(ntohl(soa->serial),ntohl(zone->soa_disk.serial)) <= 0) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: ignored notify %s %u old serial, zone valid " "(soa disk serial %u)", zone->apex_str, (unsigned)ntohl(soa->serial), (unsigned)ntohl(zone->soa_disk.serial))); return 0; /* ignore notify with old serial, we have a valid zone */ } if(soa == 0) { zone->soa_notified.serial = 0; } else if (zone->soa_notified_acquired == 0 || zone->soa_notified.serial == 0 || compare_serial(ntohl(soa->serial), ntohl(zone->soa_notified.serial)) > 0) { zone->soa_notified = *soa; } zone->soa_notified_acquired = xfrd_time(); if(zone->state == xfrd_zone_ok) { xfrd_set_zone_state(zone, xfrd_zone_refreshing); } /* transfer right away */ DEBUG(DEBUG_XFRD,1, (LOG_INFO, "Handle incoming notify for zone %s", zone->apex_str)); return 1; } static int find_same_master_notify(xfrd_zone_type* zone, int acl_num_nfy) { struct acl_options* nfy_acl = acl_find_num(zone->zone_options->pattern-> allow_notify, acl_num_nfy); int num = 0; struct acl_options* master = zone->zone_options->pattern->request_xfr; if(!nfy_acl) return -1; while(master) { if(acl_addr_matches_host(nfy_acl, master)) return num; master = master->next; num++; } return -1; } void xfrd_check_failed_updates() { /* see if updates have not come through */ xfrd_zone_type* zone; RBTREE_FOR(zone, xfrd_zone_type*, xfrd->zones) { /* zone has a disk soa, and no nsd soa or a different nsd soa */ if(zone->soa_disk_acquired != 0 && (zone->soa_nsd_acquired == 0 || zone->soa_disk.serial != zone->soa_nsd.serial)) { if(zone->soa_disk_acquired < xfrd->reload_cmd_last_sent) { /* this zone should have been loaded, since its disk soa time is before the time of the reload cmd. */ xfrd_soa_type dumped_soa = zone->soa_disk; log_msg(LOG_ERR, "xfrd: zone %s: soa serial %u " "update failed, restarting " "transfer (notified zone)", zone->apex_str, (unsigned)ntohl(zone->soa_disk.serial)); /* revert the soa; it has not been acquired properly */ if(zone->soa_disk_acquired == zone->soa_nsd_acquired) { /* this was the same as served, * perform force_axfr , re-download * same serial from master */ zone->soa_disk_acquired = 0; zone->soa_nsd_acquired = 0; } else { /* revert soa to the one in server */ zone->soa_disk_acquired = zone->soa_nsd_acquired; zone->soa_disk = zone->soa_nsd; } /* pretend we are notified with disk soa. This will cause a refetch of the data, and reload. */ xfrd_handle_incoming_notify(zone, &dumped_soa); xfrd_set_timer_refresh(zone); } else if(zone->soa_disk_acquired >= xfrd->reload_cmd_last_sent) { /* this zone still has to be loaded, make sure reload is set to be sent. */ if(xfrd->need_to_send_reload == 0 && xfrd->reload_added == 0) { log_msg(LOG_ERR, "xfrd: zone %s: needs " "to be loaded. reload lost? " "try again", zone->apex_str); xfrd_set_reload_timeout(); } } } } } void xfrd_prepare_zones_for_reload() { xfrd_zone_type* zone; RBTREE_FOR(zone, xfrd_zone_type*, xfrd->zones) { /* zone has a disk soa, and no nsd soa or a different nsd soa */ if(zone->soa_disk_acquired != 0 && (zone->soa_nsd_acquired == 0 || zone->soa_disk.serial != zone->soa_nsd.serial)) { if(zone->soa_disk_acquired == xfrd_time()) { /* antedate by one second. * this makes sure that the zone time is before * reload, so that check_failed_zones() is * certain of the result. */ zone->soa_disk_acquired--; } } } } struct buffer* xfrd_get_temp_buffer() { return xfrd->packet; } #ifdef BIND8_STATS /** process stat info task */ static void xfrd_process_stat_info_task(xfrd_state_type* xfrd, struct task_list_d* task) { size_t i; stc_type* p = (void*)task->zname + sizeof(struct nsdst); stats_add(&xfrd->nsd->st, (struct nsdst*)task->zname); for(i=0; insd->child_count; i++) { xfrd->nsd->children[i].query_count += *p++; } /* got total, now see if users are interested in these statistics */ #ifdef HAVE_SSL daemon_remote_process_stats(xfrd->nsd->rc); #endif } #endif /* BIND8_STATS */ #ifdef USE_ZONE_STATS /** process zonestat inc task */ static void xfrd_process_zonestat_inc_task(xfrd_state_type* xfrd, struct task_list_d* task) { xfrd->zonestat_safe = (unsigned)task->oldserial; zonestat_remap(xfrd->nsd, 0, xfrd->zonestat_safe*sizeof(struct nsdst)); xfrd->nsd->zonestatsize[0] = xfrd->zonestat_safe; zonestat_remap(xfrd->nsd, 1, xfrd->zonestat_safe*sizeof(struct nsdst)); xfrd->nsd->zonestatsize[1] = xfrd->zonestat_safe; } #endif /* USE_ZONE_STATS */ static void xfrd_handle_taskresult(xfrd_state_type* xfrd, struct task_list_d* task) { #ifndef BIND8_STATS (void)xfrd; #endif switch(task->task_type) { case task_soa_info: xfrd_process_soa_info_task(task); break; #ifdef BIND8_STATS case task_stat_info: xfrd_process_stat_info_task(xfrd, task); break; #endif /* BIND8_STATS */ #ifdef USE_ZONE_STATS case task_zonestat_inc: xfrd_process_zonestat_inc_task(xfrd, task); break; #endif default: log_msg(LOG_WARNING, "unhandled task result in xfrd from " "reload type %d", (int)task->task_type); } } void xfrd_process_task_result(xfrd_state_type* xfrd, struct udb_base* taskudb) { udb_ptr t; /* remap it for usage */ task_remap(taskudb); /* process the task-results in the taskudb */ udb_ptr_new(&t, taskudb, udb_base_get_userdata(taskudb)); while(!udb_ptr_is_null(&t)) { xfrd_handle_taskresult(xfrd, TASKLIST(&t)); udb_ptr_set_rptr(&t, taskudb, &TASKLIST(&t)->next); } udb_ptr_unlink(&t, taskudb); /* clear the udb so it can be used by xfrd to make new tasks for * reload, this happens when the reload signal is sent, and thus * the taskudbs are swapped */ task_clear(taskudb); } void xfrd_set_reload_now(xfrd_state_type* xfrd) { xfrd->need_to_send_reload = 1; if(!(xfrd->ipc_handler_flags&EV_WRITE)) { ipc_xfrd_set_listening(xfrd, EV_PERSIST|EV_READ|EV_WRITE); } } static void xfrd_handle_write_timer(int ATTR_UNUSED(fd), short event, void* ATTR_UNUSED(arg)) { /* timeout for write events */ assert(event & EV_TIMEOUT); (void)event; if(xfrd->nsd->options->zonefiles_write == 0) return; /* call reload to write changed zonefiles */ if(!xfrd->write_zonefile_needed) { DEBUG(DEBUG_XFRD,2, (LOG_INFO, "zonefiles write timer (nothing)")); xfrd_write_timer_set(); return; } DEBUG(DEBUG_XFRD,1, (LOG_INFO, "zonefiles write timer")); task_new_write_zonefiles(xfrd->nsd->task[xfrd->nsd->mytask], xfrd->last_task, NULL); xfrd_set_reload_now(xfrd); xfrd->write_zonefile_needed = 0; xfrd_write_timer_set(); } static void xfrd_write_timer_set() { struct timeval tv; if(xfrd->nsd->options->zonefiles_write == 0) return; tv.tv_sec = xfrd->nsd->options->zonefiles_write; tv.tv_usec = 0; event_set(&xfrd->write_timer, -1, EV_TIMEOUT, xfrd_handle_write_timer, xfrd); if(event_base_set(xfrd->event_base, &xfrd->write_timer) != 0) log_msg(LOG_ERR, "xfrd write timer: event_base_set failed"); if(event_add(&xfrd->write_timer, &tv) != 0) log_msg(LOG_ERR, "xfrd write timer: event_add failed"); } static void xfrd_handle_child_timer(int ATTR_UNUSED(fd), short event, void* ATTR_UNUSED(arg)) { assert(event & EV_TIMEOUT); (void)event; /* only used to wakeup the process to reap children, note the * event is no longer registered */ xfrd->child_timer_added = 0; }