/* ddns.c Dynamic DNS updates. */ /* * Copyright (c) 2000-2001 Internet Software Consortium. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of The Internet Software Consortium nor the names * of its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INTERNET SOFTWARE CONSORTIUM AND * CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE INTERNET SOFTWARE CONSORTIUM OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * This software has been donated to the Internet Software Consortium * by Damien Neil of Nominum, Inc. * * To learn more about the Internet Software Consortium, see * ``http://www.isc.org/''. To learn more about Nominum, Inc., see * ``http://www.nominum.com''. */ #ifndef lint static char copyright[] = "$Id: ddns.c,v 1.2 2001/06/18 19:01:59 drochner Exp $ Copyright (c) 2000-2001 The Internet Software Consortium. All rights reserved.\n"; #endif /* not lint */ #include "dhcpd.h" #include "dst/md5.h" #include "minires/minires.h" #ifdef NSUPDATE /* DN: No way of checking that there is enough space in a data_string's buffer. Be certain to allocate enough! TL: This is why the expression evaluation code allocates a *new* data_string. :') */ static void data_string_append (struct data_string *ds1, struct data_string *ds2) { memcpy (ds1 -> buffer -> data + ds1 -> len, ds2 -> data, ds2 -> len); ds1 -> len += ds2 -> len; } static isc_result_t ddns_update_ptr (struct data_string *ddns_fwd_name, struct data_string *ddns_rev_name, unsigned long ttl) { ns_updque updqueue; ns_updrec *updrec; isc_result_t result = ISC_R_UNEXPECTED; /* * The DHCP server submits a DNS query which deletes all of the PTR RRs * associated with the lease IP address, and adds a PTR RR whose data * is the client's (possibly disambiguated) host name. The server also * adds a DHCID RR specified in Section 4.3. * -- "Interaction between DHCP and DNS" */ ISC_LIST_INIT (updqueue); /* * Delete all PTR RRs. */ updrec = minires_mkupdrec (S_UPDATE, (const char *)ddns_rev_name -> data, C_IN, T_PTR, 0); if (!updrec) { result = ISC_R_NOMEMORY; goto error; } updrec -> r_data = (unsigned char *)0; updrec -> r_size = 0; updrec -> r_opcode = DELETE; ISC_LIST_APPEND (updqueue, updrec, r_link); /* * Add PTR RR. */ updrec = minires_mkupdrec (S_UPDATE, (const char *)ddns_rev_name -> data, C_IN, T_PTR, ttl); if (!updrec) { result = ISC_R_NOMEMORY; goto error; } updrec -> r_data = ddns_fwd_name -> data; updrec -> r_size = ddns_fwd_name -> len; updrec -> r_opcode = ADD; ISC_LIST_APPEND (updqueue, updrec, r_link); /* * Attempt to perform the update. */ result = minires_nupdate (&resolver_state, ISC_LIST_HEAD (updqueue)); print_dns_status ((int)result, &updqueue); /* Fall through. */ error: while (!ISC_LIST_EMPTY (updqueue)) { updrec = ISC_LIST_HEAD (updqueue); ISC_LIST_UNLINK (updqueue, updrec, r_link); minires_freeupdrec (updrec); } return result; } static isc_result_t ddns_remove_ptr (struct data_string *ddns_rev_name) { ns_updque updqueue; ns_updrec *updrec; isc_result_t result; /* * When a lease expires or a DHCP client issues a DHCPRELEASE request, * the DHCP server SHOULD delete the PTR RR that matches the DHCP * binding, if one was successfully added. The server's update query * SHOULD assert that the name in the PTR record matches the name of * the client whose lease has expired or been released. * -- "Interaction between DHCP and DNS" */ ISC_LIST_INIT (updqueue); /* * Delete the PTR RRset for the leased address. */ updrec = minires_mkupdrec (S_UPDATE, (const char *)ddns_rev_name -> data, C_IN, T_PTR, 0); if (!updrec) { result = ISC_R_NOMEMORY; goto error; } updrec -> r_data = (unsigned char *)0; updrec -> r_size = 0; updrec -> r_opcode = DELETE; ISC_LIST_APPEND (updqueue, updrec, r_link); /* * Attempt to perform the update. */ result = minires_nupdate (&resolver_state, ISC_LIST_HEAD (updqueue)); print_dns_status ((int)result, &updqueue); /* Fall through. */ error: while (!ISC_LIST_EMPTY (updqueue)) { updrec = ISC_LIST_HEAD (updqueue); ISC_LIST_UNLINK (updqueue, updrec, r_link); minires_freeupdrec (updrec); } return result; } int ddns_updates (struct packet *packet, struct lease *lease, struct lease *old, struct lease_state *state) { unsigned long ddns_ttl = DEFAULT_DDNS_TTL; struct data_string ddns_hostname; struct data_string ddns_domainname; struct data_string old_ddns_fwd_name; struct data_string ddns_fwd_name; struct data_string ddns_rev_name; struct data_string ddns_dhcid; unsigned len; struct data_string d1; struct option_cache *oc; int s1, s2; int result = 0; isc_result_t rcode1 = ISC_R_SUCCESS, rcode2 = ISC_R_SUCCESS; int server_updates_a = 1; struct buffer *bp = (struct buffer *)0; int ignorep = 0; if (ddns_update_style != 2) return 0; /* Can only cope with IPv4 addrs at the moment. */ if (lease -> ip_addr . len != 4) return 0; memset (&ddns_hostname, 0, sizeof (ddns_hostname)); memset (&ddns_domainname, 0, sizeof (ddns_domainname)); memset (&old_ddns_fwd_name, 0, sizeof (ddns_fwd_name)); memset (&ddns_fwd_name, 0, sizeof (ddns_fwd_name)); memset (&ddns_rev_name, 0, sizeof (ddns_rev_name)); memset (&ddns_dhcid, 0, sizeof (ddns_dhcid)); /* If we are allowed to accept the client's update of its own A record, see if the client wants to update its own A record. */ if (!(oc = lookup_option (&server_universe, state -> options, SV_CLIENT_UPDATES)) || evaluate_boolean_option_cache (&ignorep, packet, lease, (struct client_state *)0, packet -> options, state -> options, &lease -> scope, oc, MDL)) { /* If there's no fqdn.no-client-update or if it's nonzero, don't try to use the client-supplied XXX */ if (!(oc = lookup_option (&fqdn_universe, packet -> options, FQDN_NO_CLIENT_UPDATE)) || evaluate_boolean_option_cache (&ignorep, packet, lease, (struct client_state *)0, packet -> options, state -> options, &lease -> scope, oc, MDL)) goto noclient; /* Win98 and Win2k will happily claim to be willing to update an unqualified domain name. */ if (!(oc = lookup_option (&fqdn_universe, packet -> options, FQDN_DOMAINNAME))) goto noclient; if (!(oc = lookup_option (&fqdn_universe, packet -> options, FQDN_FQDN)) || !evaluate_option_cache (&ddns_fwd_name, packet, lease, (struct client_state *)0, packet -> options, state -> options, &lease -> scope, oc, MDL)) goto noclient; server_updates_a = 0; goto client_updates; } noclient: /* If it's a static lease, then don't do the DNS update unless we're specifically configured to do so. If the client asked to do its own update and we allowed that, we don't do this test. */ if (lease -> flags & STATIC_LEASE) { if (!(oc = lookup_option (&server_universe, packet -> options, SV_UPDATE_STATIC_LEASES)) || !evaluate_boolean_option_cache (&ignorep, packet, lease, (struct client_state *)0, packet -> options, state -> options, &lease -> scope, oc, MDL)) return 0; } /* * Compute the name for the A record. */ s1 = s2 = 0; oc = lookup_option (&server_universe, state -> options, SV_DDNS_HOST_NAME); if (oc) s1 = evaluate_option_cache (&ddns_hostname, packet, lease, (struct client_state *)0, packet -> options, state -> options, &lease -> scope, oc, MDL); oc = lookup_option (&server_universe, state -> options, SV_DDNS_DOMAIN_NAME); if (oc) s2 = evaluate_option_cache (&ddns_domainname, packet, lease, (struct client_state *)0, packet -> options, state -> options, &lease -> scope, oc, MDL); if (s1 && s2) { buffer_allocate (&ddns_fwd_name.buffer, ddns_hostname.len + ddns_domainname.len + 2, MDL); if (ddns_fwd_name.buffer) { ddns_fwd_name.data = ddns_fwd_name.buffer -> data; data_string_append (&ddns_fwd_name, &ddns_hostname); ddns_fwd_name.buffer -> data [ddns_fwd_name.len] = '.'; ddns_fwd_name.len++; data_string_append (&ddns_fwd_name, &ddns_domainname); ddns_fwd_name.buffer -> data [ddns_fwd_name.len] ='\0'; ddns_fwd_name.terminated = 1; } } client_updates: /* See if there's a name already stored on the lease. */ if (find_bound_string (&old_ddns_fwd_name, lease -> scope, "ddns-fwd-name")) { /* If there is, see if it's different. */ if (old_ddns_fwd_name.len != ddns_fwd_name.len || memcmp (old_ddns_fwd_name.data, ddns_fwd_name.data, old_ddns_fwd_name.len)) { /* If the name is different, try to delete the old A record. */ if (!ddns_removals (lease)) goto out; /* If the delete succeeded, go install the new record. */ goto in; } /* See if there's a DHCID on the lease. */ if (!find_bound_string (&ddns_dhcid, lease -> scope, "ddns-txt")) { /* If there's no DHCID, the update was probably done with the old-style ad-hoc DDNS updates. So if the expiry and release events look like they're the same, run them. This should delete the old DDNS data. */ if (old -> on_expiry == old -> on_release) { execute_statements ((struct binding_value **)0, (struct packet *)0, lease, (struct client_state *)0, (struct option_state *)0, (struct option_state *)0, &lease -> scope, old -> on_expiry); if (old -> on_expiry) executable_statement_dereference (&old -> on_expiry, MDL); if (old -> on_release) executable_statement_dereference (&old -> on_release, MDL); /* Now, install the DDNS data the new way. */ goto in; } } /* See if the administrator wants to do updates even in cases where the update already appears to have been done. */ if (!(oc = lookup_option (&server_universe, state -> options, SV_UPDATE_OPTIMIZATION)) || evaluate_boolean_option_cache (&ignorep, packet, lease, (struct client_state *)0, packet -> options, state -> options, &lease -> scope, oc, MDL)) { result = 1; goto noerror; } } /* If there's no ddns-fwd-name on the lease, see if there's a ddns-client-fqdn, indicating a prior client FQDN update. If there is, and if we're still doing the client update, see if the name has changed. If it hasn't, don't do the PTR update. */ if (find_bound_string (&old_ddns_fwd_name, lease -> scope, "ddns-client-fqdn")) { if (old_ddns_fwd_name.len == ddns_fwd_name.len && !memcmp (old_ddns_fwd_name.data, ddns_fwd_name.data, old_ddns_fwd_name.len)) { /* If the name is not different, no need to update the PTR record. */ goto noerror; } } in: /* * Compute the RR TTL. */ ddns_ttl = DEFAULT_DDNS_TTL; memset (&d1, 0, sizeof d1); if ((oc = lookup_option (&server_universe, state -> options, SV_DDNS_TTL))) { if (evaluate_option_cache (&d1, packet, lease, (struct client_state *)0, packet -> options, state -> options, &lease -> scope, oc, MDL)) { if (d1.len == sizeof (u_int32_t)) ddns_ttl = getULong (d1.data); data_string_forget (&d1, MDL); } } /* * Compute the reverse IP name. */ oc = lookup_option (&server_universe, state -> options, SV_DDNS_REV_DOMAIN_NAME); if (oc) s1 = evaluate_option_cache (&d1, packet, lease, (struct client_state *)0, packet -> options, state -> options, &lease -> scope, oc, MDL); if (oc && s1) { /* Buffer length: XXX.XXX.XXX.XXX.\0 */ buffer_allocate (&ddns_rev_name.buffer, d1.len + 17, MDL); if (ddns_rev_name.buffer) { ddns_rev_name.data = ddns_rev_name.buffer -> data; #ifndef NO_SNPRINTF snprintf ((char *)ddns_rev_name.buffer -> data, 17, "%d.%d.%d.%d.", lease -> ip_addr . iabuf[3], lease -> ip_addr . iabuf[2], lease -> ip_addr . iabuf[1], lease -> ip_addr . iabuf[0]); #else sprintf ((char *)ddns_rev_name.buffer -> data, "%d.%d.%d.%d.", lease -> ip_addr . iabuf[3], lease -> ip_addr . iabuf[2], lease -> ip_addr . iabuf[1], lease -> ip_addr . iabuf[0]); #endif ddns_rev_name.len = strlen ((const char *)ddns_rev_name.data); data_string_append (&ddns_rev_name, &d1); ddns_rev_name.buffer -> data [ddns_rev_name.len] ='\0'; ddns_rev_name.terminated = 1; } data_string_forget (&d1, MDL); } /* * If we are updating the A record, compute the DHCID value. */ if (server_updates_a) { memset (&ddns_dhcid, 0, sizeof ddns_dhcid); if (lease -> uid && lease -> uid_len) result = get_dhcid (&ddns_dhcid, DHO_DHCP_CLIENT_IDENTIFIER, lease -> uid, lease -> uid_len); else result = get_dhcid (&ddns_dhcid, 0, lease -> hardware_addr.hbuf, lease -> hardware_addr.hlen); if (!result) goto badfqdn; } /* * Start the resolver, if necessary. */ if (!resolver_inited) { minires_ninit (&resolver_state); resolver_inited = 1; resolver_state.retrans = 1; resolver_state.retry = 1; } /* * Perform updates. */ if (ddns_fwd_name.len && ddns_dhcid.len) rcode1 = ddns_update_a (&ddns_fwd_name, lease -> ip_addr, &ddns_dhcid, ddns_ttl, 0); if (rcode1 == ISC_R_SUCCESS) { if (ddns_fwd_name.len && ddns_rev_name.len) rcode2 = ddns_update_ptr (&ddns_fwd_name, &ddns_rev_name, ddns_ttl); } else rcode2 = rcode1; if (rcode1 == ISC_R_SUCCESS && (server_updates_a || rcode2 == ISC_R_SUCCESS)) { bind_ds_value (&lease -> scope, (server_updates_a ? "ddns-fwd-name" : "ddns-client-fqdn"), &ddns_fwd_name); if (server_updates_a) bind_ds_value (&lease -> scope, "ddns-txt", &ddns_dhcid); } if (rcode2 == ISC_R_SUCCESS) { bind_ds_value (&lease -> scope, "ddns-rev-name", &ddns_rev_name); } /* Set up the outgoing FQDN option if there was an incoming FQDN option. If there's a valid FQDN option, there should be an FQDN_ENCODED suboption, so we test the latter to detect the presence of the former. */ noerror: if ((oc = lookup_option (&fqdn_universe, packet -> options, FQDN_ENCODED)) && buffer_allocate (&bp, ddns_fwd_name.len + 5, MDL)) { bp -> data [0] = server_updates_a; if (!save_option_buffer (&fqdn_universe, state -> options, bp, &bp -> data [0], 1, &fqdn_options [FQDN_SERVER_UPDATE], 0)) goto badfqdn; bp -> data [1] = server_updates_a; if (!save_option_buffer (&fqdn_universe, state -> options, bp, &bp -> data [1], 1, &fqdn_options [FQDN_NO_CLIENT_UPDATE], 0)) goto badfqdn; /* Do the same encoding the client did. */ oc = lookup_option (&fqdn_universe, packet -> options, FQDN_ENCODED); if (oc && evaluate_boolean_option_cache (&ignorep, packet, lease, (struct client_state *)0, packet -> options, state -> options, &lease -> scope, oc, MDL)) bp -> data [2] = 1; else bp -> data [2] = 0; if (!save_option_buffer (&fqdn_universe, state -> options, bp, &bp -> data [2], 1, &fqdn_options [FQDN_ENCODED], 0)) goto badfqdn; bp -> data [3] = isc_rcode_to_ns (rcode1); if (!save_option_buffer (&fqdn_universe, state -> options, bp, &bp -> data [3], 1, &fqdn_options [FQDN_RCODE1], 0)) goto badfqdn; bp -> data [4] = isc_rcode_to_ns (rcode2); if (!save_option_buffer (&fqdn_universe, state -> options, bp, &bp -> data [4], 1, &fqdn_options [FQDN_RCODE2], 0)) goto badfqdn; if (ddns_fwd_name.len) { memcpy (&bp -> data [5], ddns_fwd_name.data, ddns_fwd_name.len); if (!save_option_buffer (&fqdn_universe, state -> options, bp, &bp -> data [5], ddns_fwd_name.len, &fqdn_options [FQDN_FQDN], 0)) goto badfqdn; } } badfqdn: out: /* * Final cleanup. */ data_string_forget (&ddns_hostname, MDL); data_string_forget (&ddns_domainname, MDL); data_string_forget (&old_ddns_fwd_name, MDL); data_string_forget (&ddns_fwd_name, MDL); data_string_forget (&ddns_rev_name, MDL); data_string_forget (&ddns_dhcid, MDL); if (bp) buffer_dereference (&bp, MDL); return result; } int ddns_removals (struct lease *lease) { struct data_string ddns_fwd_name; struct data_string ddns_rev_name; struct data_string ddns_dhcid; isc_result_t rcode; struct binding *binding; int result = 0; int client_updated = 0; /* No scope implies that DDNS has not been performed for this lease. */ if (!lease -> scope) return 0; /* * Look up stored names. */ memset (&ddns_fwd_name, 0, sizeof (ddns_fwd_name)); memset (&ddns_rev_name, 0, sizeof (ddns_rev_name)); memset (&ddns_dhcid, 0, sizeof (ddns_dhcid)); /* * Start the resolver, if necessary. */ if (!resolver_inited) { minires_ninit (&resolver_state); resolver_inited = 1; } /* We need the fwd name whether we are deleting both records or just the PTR record, so if it's not there, we can't proceed. */ if (!find_bound_string (&ddns_fwd_name, lease -> scope, "ddns-fwd-name")) { /* If there's no ddns-fwd-name, look for the client fqdn, in case the client did the update. */ if (!find_bound_string (&ddns_fwd_name, lease -> scope, "ddns-client-fqdn")) return 0; client_updated = 1; goto try_rev; } /* If the ddns-txt binding isn't there, this isn't an interim or rfc3??? record, so we can't delete the A record using this mechanism, but we can delete the PTR record. */ if (!find_bound_string (&ddns_dhcid, lease -> scope, "ddns-txt")) { result = 1; goto try_rev; } /* * Perform removals. */ rcode = ddns_remove_a (&ddns_fwd_name, lease -> ip_addr, &ddns_dhcid); if (rcode == ISC_R_SUCCESS) { result = 1; unset (lease -> scope, "ddns-fwd-name"); unset (lease -> scope, "ddns-txt"); try_rev: if (find_bound_string (&ddns_rev_name, lease -> scope, "ddns-rev-name")) { if (ddns_remove_ptr(&ddns_rev_name) == NOERROR) { unset (lease -> scope, "ddns-rev-name"); if (client_updated) unset (lease -> scope, "ddns-client-fqdn"); } else result = 0; } } data_string_forget (&ddns_fwd_name, MDL); data_string_forget (&ddns_rev_name, MDL); data_string_forget (&ddns_dhcid, MDL); return result; } #endif /* NSUPDATE */