/* * xfrd-tcp.c - XFR (transfer) Daemon TCP system source file. Manages tcp conn. * * Copyright (c) 2001-2006, NLnet Labs. All rights reserved. * * See LICENSE for the license. * */ #include #include #include #include #include #include #include "xfrd-tcp.h" #include "buffer.h" #include "packet.h" #include "dname.h" #include "options.h" #include "namedb.h" #include "xfrd.h" #include "util.h" xfrd_tcp_set_t* xfrd_tcp_set_create(struct region* region) { int i; xfrd_tcp_set_t* tcp_set = region_alloc(region, sizeof(xfrd_tcp_set_t)); memset(tcp_set, 0, sizeof(xfrd_tcp_set_t)); tcp_set->tcp_count = 0; tcp_set->tcp_waiting_first = 0; tcp_set->tcp_waiting_last = 0; for(i=0; itcp_state[i] = xfrd_tcp_create(region); return tcp_set; } void xfrd_setup_packet(buffer_type* packet, uint16_t type, uint16_t klass, const dname_type* dname) { /* Set up the header */ buffer_clear(packet); ID_SET(packet, (uint16_t) random()); FLAGS_SET(packet, 0); OPCODE_SET(packet, OPCODE_QUERY); QDCOUNT_SET(packet, 1); ANCOUNT_SET(packet, 0); NSCOUNT_SET(packet, 0); ARCOUNT_SET(packet, 0); buffer_skip(packet, QHEADERSZ); /* The question record. */ buffer_write(packet, dname_name(dname), dname->name_size); buffer_write_u16(packet, type); buffer_write_u16(packet, klass); } static socklen_t #ifdef INET6 xfrd_acl_sockaddr(acl_options_t* acl, unsigned int port, struct sockaddr_storage *sck) #else xfrd_acl_sockaddr(acl_options_t* acl, unsigned int port, struct sockaddr_in *sck, const char* fromto) #endif /* INET6 */ { /* setup address structure */ #ifdef INET6 memset(sck, 0, sizeof(struct sockaddr_storage)); #else memset(sck, 0, sizeof(struct sockaddr_in)); #endif if(acl->is_ipv6) { #ifdef INET6 struct sockaddr_in6* sa = (struct sockaddr_in6*)sck; sa->sin6_family = AF_INET6; sa->sin6_port = htons(port); sa->sin6_addr = acl->addr.addr6; return sizeof(struct sockaddr_in6); #else log_msg(LOG_ERR, "xfrd: IPv6 connection %s %s attempted but no \ INET6.", fromto, acl->ip_address_spec); return 0; #endif } else { struct sockaddr_in* sa = (struct sockaddr_in*)sck; sa->sin_family = AF_INET; sa->sin_port = htons(port); sa->sin_addr = acl->addr.addr; return sizeof(struct sockaddr_in); } } socklen_t #ifdef INET6 xfrd_acl_sockaddr_to(acl_options_t* acl, struct sockaddr_storage *to) #else xfrd_acl_sockaddr_to(acl_options_t* acl, struct sockaddr_in *to) #endif /* INET6 */ { unsigned int port = acl->port?acl->port:(unsigned)atoi(TCP_PORT); #ifdef INET6 return xfrd_acl_sockaddr(acl, port, to); #else return xfrd_acl_sockaddr(acl, port, to, "to"); #endif /* INET6 */ } socklen_t #ifdef INET6 xfrd_acl_sockaddr_frm(acl_options_t* acl, struct sockaddr_storage *frm) #else xfrd_acl_sockaddr_frm(acl_options_t* acl, struct sockaddr_in *frm) #endif /* INET6 */ { unsigned int port = acl->port?acl->port:0; #ifdef INET6 return xfrd_acl_sockaddr(acl, port, frm); #else return xfrd_acl_sockaddr(acl, port, frm, "from"); #endif /* INET6 */ } void xfrd_write_soa_buffer(struct buffer* packet, const dname_type* apex, struct xfrd_soa* soa) { size_t rdlength_pos; uint16_t rdlength; buffer_write(packet, dname_name(apex), apex->name_size); /* already in network order */ buffer_write(packet, &soa->type, sizeof(soa->type)); buffer_write(packet, &soa->klass, sizeof(soa->klass)); buffer_write(packet, &soa->ttl, sizeof(soa->ttl)); rdlength_pos = buffer_position(packet); buffer_skip(packet, sizeof(rdlength)); /* uncompressed dnames */ buffer_write(packet, soa->prim_ns+1, soa->prim_ns[0]); buffer_write(packet, soa->email+1, soa->email[0]); buffer_write(packet, &soa->serial, sizeof(uint32_t)); buffer_write(packet, &soa->refresh, sizeof(uint32_t)); buffer_write(packet, &soa->retry, sizeof(uint32_t)); buffer_write(packet, &soa->expire, sizeof(uint32_t)); buffer_write(packet, &soa->minimum, sizeof(uint32_t)); /* write length of RR */ rdlength = buffer_position(packet) - rdlength_pos - sizeof(rdlength); buffer_write_u16_at(packet, rdlength_pos, rdlength); } xfrd_tcp_t* xfrd_tcp_create(region_type* region) { xfrd_tcp_t* tcp_state = (xfrd_tcp_t*)region_alloc( region, sizeof(xfrd_tcp_t)); memset(tcp_state, 0, sizeof(xfrd_tcp_t)); tcp_state->packet = buffer_create(region, QIOBUFSZ); tcp_state->fd = -1; return tcp_state; } void xfrd_tcp_obtain(xfrd_tcp_set_t* set, xfrd_zone_t* zone) { assert(zone->tcp_conn == -1); assert(zone->tcp_waiting == 0); if(set->tcp_count < XFRD_MAX_TCP) { int i; assert(!set->tcp_waiting_first); set->tcp_count ++; /* find a free tcp_buffer */ for(i=0; itcp_state[i]->fd == -1) { zone->tcp_conn = i; break; } } assert(zone->tcp_conn != -1); zone->tcp_waiting = 0; /* stop udp use (if any) */ if(zone->zone_handler.fd != -1) xfrd_udp_release(zone); if(!xfrd_tcp_open(set, zone)) return; xfrd_tcp_xfr(set, zone); return; } /* wait, at end of line */ DEBUG(DEBUG_XFRD,2, (LOG_INFO, "xfrd: max number of tcp " "connections (%d) reached.", XFRD_MAX_TCP)); zone->tcp_waiting_next = 0; zone->tcp_waiting = 1; if(!set->tcp_waiting_last) { set->tcp_waiting_first = zone; set->tcp_waiting_last = zone; } else { set->tcp_waiting_last->tcp_waiting_next = zone; set->tcp_waiting_last = zone; } xfrd_unset_timer(zone); } int xfrd_tcp_open(xfrd_tcp_set_t* set, xfrd_zone_t* zone) { int fd, family, conn; #ifdef INET6 struct sockaddr_storage to; #else struct sockaddr_in to; #endif /* INET6 */ socklen_t to_len; assert(zone->tcp_conn != -1); DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s open tcp conn to %s", zone->apex_str, zone->master->ip_address_spec)); set->tcp_state[zone->tcp_conn]->is_reading = 0; set->tcp_state[zone->tcp_conn]->total_bytes = 0; set->tcp_state[zone->tcp_conn]->msglen = 0; if(zone->master->is_ipv6) { #ifdef INET6 family = PF_INET6; #else xfrd_set_refresh_now(zone); xfrd_tcp_release(set, zone); return 0; #endif } else { family = PF_INET; } fd = socket(family, SOCK_STREAM, IPPROTO_TCP); set->tcp_state[zone->tcp_conn]->fd = fd; if(fd == -1) { log_msg(LOG_ERR, "xfrd: %s cannot create tcp socket: %s", zone->master->ip_address_spec, strerror(errno)); xfrd_set_refresh_now(zone); xfrd_tcp_release(set, zone); return 0; } if(fcntl(fd, F_SETFL, O_NONBLOCK) == -1) { log_msg(LOG_ERR, "xfrd: fcntl failed: %s", strerror(errno)); xfrd_set_refresh_now(zone); xfrd_tcp_release(set, zone); return 0; } to_len = xfrd_acl_sockaddr_to(zone->master, &to); /* bind it */ if (!xfrd_bind_local_interface(fd, zone->zone_options->outgoing_interface, zone->master, 1)) { xfrd_set_refresh_now(zone); xfrd_tcp_release(set, zone); return 0; } conn = connect(fd, (struct sockaddr*)&to, to_len); if (conn == -1 && errno != EINPROGRESS) { log_msg(LOG_ERR, "xfrd: connect %s failed: %s", zone->master->ip_address_spec, strerror(errno)); xfrd_set_refresh_now(zone); xfrd_tcp_release(set, zone); return 0; } zone->zone_handler.fd = fd; zone->zone_handler.event_types = NETIO_EVENT_TIMEOUT|NETIO_EVENT_WRITE; xfrd_set_timer(zone, xfrd_time() + set->tcp_timeout); return 1; } void xfrd_tcp_xfr(xfrd_tcp_set_t* set, xfrd_zone_t* zone) { xfrd_tcp_t* tcp = set->tcp_state[zone->tcp_conn]; assert(zone->tcp_conn != -1); assert(zone->tcp_waiting == 0); /* start AXFR or IXFR for the zone */ if(zone->soa_disk_acquired == 0 || zone->master->use_axfr_only || zone->master->ixfr_disabled) { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "request full zone transfer " "(AXFR) for %s to %s", zone->apex_str, zone->master->ip_address_spec)); xfrd_setup_packet(tcp->packet, TYPE_AXFR, CLASS_IN, zone->apex); } else { DEBUG(DEBUG_XFRD,1, (LOG_INFO, "request incremental zone " "transfer (IXFR) for %s to %s", zone->apex_str, zone->master->ip_address_spec)); xfrd_setup_packet(tcp->packet, TYPE_IXFR, CLASS_IN, zone->apex); NSCOUNT_SET(tcp->packet, 1); xfrd_write_soa_buffer(tcp->packet, zone->apex, &zone->soa_disk); } zone->query_id = ID(tcp->packet); zone->msg_seq_nr = 0; zone->msg_rr_count = 0; #ifdef TSIG if(zone->master->key_options && zone->master->key_options->tsig_key) { xfrd_tsig_sign_request(tcp->packet, &zone->tsig, zone->master); } #endif /* TSIG */ buffer_flip(tcp->packet); DEBUG(DEBUG_XFRD,1, (LOG_INFO, "sent tcp query with ID %d", zone->query_id)); tcp->msglen = buffer_limit(tcp->packet); /* wait for select to complete connect before write */ } static void tcp_conn_ready_for_reading(xfrd_tcp_t* tcp) { tcp->total_bytes = 0; tcp->msglen = 0; buffer_clear(tcp->packet); } int conn_write(xfrd_tcp_t* tcp) { ssize_t sent; if(tcp->total_bytes < sizeof(tcp->msglen)) { uint16_t sendlen = htons(tcp->msglen); sent = write(tcp->fd, (const char*)&sendlen + tcp->total_bytes, sizeof(tcp->msglen) - tcp->total_bytes); if(sent == -1) { if(errno == EAGAIN || errno == EINTR) { /* write would block, try later */ return 0; } else { return -1; } } tcp->total_bytes += sent; if(tcp->total_bytes < sizeof(tcp->msglen)) { /* incomplete write, resume later */ return 0; } assert(tcp->total_bytes == sizeof(tcp->msglen)); } assert(tcp->total_bytes < tcp->msglen + sizeof(tcp->msglen)); sent = write(tcp->fd, buffer_current(tcp->packet), buffer_remaining(tcp->packet)); if(sent == -1) { if(errno == EAGAIN || errno == EINTR) { /* write would block, try later */ return 0; } else { return -1; } } buffer_skip(tcp->packet, sent); tcp->total_bytes += sent; if(tcp->total_bytes < tcp->msglen + sizeof(tcp->msglen)) { /* more to write when socket becomes writable again */ return 0; } assert(tcp->total_bytes == tcp->msglen + sizeof(tcp->msglen)); return 1; } void xfrd_tcp_write(xfrd_tcp_set_t* set, xfrd_zone_t* zone) { int ret; xfrd_tcp_t* tcp = set->tcp_state[zone->tcp_conn]; assert(zone->tcp_conn != -1); if(tcp->total_bytes == 0) { /* check for pending error from nonblocking connect */ /* from Stevens, unix network programming, vol1, 3rd ed, p450 */ int error = 0; socklen_t len = sizeof(error); if(getsockopt(tcp->fd, SOL_SOCKET, SO_ERROR, &error, &len) < 0){ error = errno; /* on solaris errno is error */ } if(error == EINPROGRESS || error == EWOULDBLOCK) return; /* try again later */ if(error != 0) { log_msg(LOG_ERR, "Could not tcp connect to %s: %s", zone->master->ip_address_spec, strerror(error)); xfrd_set_refresh_now(zone); xfrd_tcp_release(set, zone); return; } } ret = conn_write(tcp); if(ret == -1) { log_msg(LOG_ERR, "xfrd: failed writing tcp %s", strerror(errno)); xfrd_set_refresh_now(zone); xfrd_tcp_release(set, zone); return; } if(ret == 0) { return; /* write again later */ } /* done writing, get ready for reading */ tcp->is_reading = 1; tcp_conn_ready_for_reading(tcp); zone->zone_handler.event_types = NETIO_EVENT_READ|NETIO_EVENT_TIMEOUT; xfrd_tcp_read(set, zone); } int conn_read(xfrd_tcp_t* tcp) { ssize_t received; /* receive leading packet length bytes */ if(tcp->total_bytes < sizeof(tcp->msglen)) { received = read(tcp->fd, (char*) &tcp->msglen + tcp->total_bytes, sizeof(tcp->msglen) - tcp->total_bytes); if(received == -1) { if(errno == EAGAIN || errno == EINTR) { /* read would block, try later */ return 0; } else { #ifdef ECONNRESET if (verbosity >= 2 || errno != ECONNRESET) #endif /* ECONNRESET */ log_msg(LOG_ERR, "tcp read sz: %s", strerror(errno)); return -1; } } else if(received == 0) { /* EOF */ return -1; } tcp->total_bytes += received; if(tcp->total_bytes < sizeof(tcp->msglen)) { /* not complete yet, try later */ return 0; } assert(tcp->total_bytes == sizeof(tcp->msglen)); tcp->msglen = ntohs(tcp->msglen); if(tcp->msglen > buffer_capacity(tcp->packet)) { log_msg(LOG_ERR, "buffer too small, dropping connection"); return 0; } buffer_set_limit(tcp->packet, tcp->msglen); } assert(buffer_remaining(tcp->packet) > 0); received = read(tcp->fd, buffer_current(tcp->packet), buffer_remaining(tcp->packet)); if(received == -1) { if(errno == EAGAIN || errno == EINTR) { /* read would block, try later */ return 0; } else { #ifdef ECONNRESET if (verbosity >= 2 || errno != ECONNRESET) #endif /* ECONNRESET */ log_msg(LOG_ERR, "tcp read %s", strerror(errno)); return -1; } } else if(received == 0) { /* EOF */ return -1; } tcp->total_bytes += received; buffer_skip(tcp->packet, received); if(buffer_remaining(tcp->packet) > 0) { /* not complete yet, wait for more */ return 0; } /* completed */ assert(buffer_position(tcp->packet) == tcp->msglen); return 1; } void xfrd_tcp_read(xfrd_tcp_set_t* set, xfrd_zone_t* zone) { xfrd_tcp_t* tcp = set->tcp_state[zone->tcp_conn]; int ret; assert(zone->tcp_conn != -1); ret = conn_read(tcp); if(ret == -1) { xfrd_set_refresh_now(zone); xfrd_tcp_release(set, zone); return; } if(ret == 0) return; /* completed msg */ buffer_flip(tcp->packet); switch(xfrd_handle_received_xfr_packet(zone, tcp->packet)) { case xfrd_packet_more: tcp_conn_ready_for_reading(tcp); break; case xfrd_packet_transfer: case xfrd_packet_newlease: xfrd_tcp_release(set, zone); assert(zone->round_num == -1); break; case xfrd_packet_notimpl: zone->master->ixfr_disabled = time(NULL); xfrd_tcp_release(set, zone); /* query next server */ xfrd_make_request(zone); break; case xfrd_packet_bad: case xfrd_packet_tcp: default: xfrd_tcp_release(set, zone); /* query next server */ xfrd_make_request(zone); break; } } void xfrd_tcp_release(xfrd_tcp_set_t* set, xfrd_zone_t* zone) { int conn = zone->tcp_conn; DEBUG(DEBUG_XFRD,1, (LOG_INFO, "xfrd: zone %s released tcp conn to %s", zone->apex_str, zone->master->ip_address_spec)); assert(zone->tcp_conn != -1); assert(zone->tcp_waiting == 0); zone->tcp_conn = -1; zone->tcp_waiting = 0; zone->zone_handler.fd = -1; zone->zone_handler.event_types = NETIO_EVENT_READ|NETIO_EVENT_TIMEOUT; if(set->tcp_state[conn]->fd != -1) close(set->tcp_state[conn]->fd); set->tcp_state[conn]->fd = -1; if(set->tcp_count == XFRD_MAX_TCP && set->tcp_waiting_first) { /* pop first waiting process */ zone = set->tcp_waiting_first; if(set->tcp_waiting_last == zone) set->tcp_waiting_last = 0; set->tcp_waiting_first = zone->tcp_waiting_next; zone->tcp_waiting_next = 0; /* start it */ assert(zone->tcp_conn == -1); zone->tcp_conn = conn; zone->tcp_waiting = 0; /* stop udp (if any) */ if(zone->zone_handler.fd != -1) xfrd_udp_release(zone); if(!xfrd_tcp_open(set, zone)) return; xfrd_tcp_xfr(set, zone); } else { assert(!set->tcp_waiting_first); set->tcp_count --; assert(set->tcp_count >= 0); } }