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/* packet-dns.c
* Routines for DNS packet disassembly
* Copyright 2004, Nicolas DICHTEL - 6WIND - <nicolas.dichtel@6wind.com>
*
* Wireshark - Network traffic analyzer
* By Gerald Combs <gerald@wireshark.org>
* Copyright 1998 Gerald Combs
*
* SPDX-License-Identifier: GPL-2.0-or-later
*/
/*
* RFC 1034, RFC 1035
* RFC 2136 for dynamic DNS
* https://datatracker.ietf.org/doc/draft-cheshire-dnsext-multicastdns/
* for multicast DNS
* RFC 4795 for link-local multicast name resolution (LLMNR)
*
* For the TTL field, see also:
*
* RFC 1035 erratum 2130:
*
* https://www.rfc-editor.org/errata/eid2130
*
* RFC 2181, section 8:
*
* https://tools.ietf.org/html/rfc2181#section-8
*
* RFC 1035 said, in section 3.2.1, that the TTL is "a 32 bit signed
* integer" but said, in section 4.1.3, that it's "a 32 bit unsigned
* integer"; the erratum notes this
*
* RFC 2181 says of this:
*
* The definition of values appropriate to the TTL field in STD 13 is
* not as clear as it could be, with respect to how many significant
* bits exist, and whether the value is signed or unsigned. It is
* hereby specified that a TTL value is an unsigned number, with a
* minimum value of 0, and a maximum value of 2147483647. That is, a
* maximum of 2^31 - 1. When transmitted, this value shall be encoded
* in the less significant 31 bits of the 32 bit TTL field, with the
* most significant, or sign, bit set to zero.
*
* Implementations should treat TTL values received with the most
* significant bit set as if the entire value received was zero.
*
* Implementations are always free to place an upper bound on any TTL
* received, and treat any larger values as if they were that upper
* bound. The TTL specifies a maximum time to live, not a mandatory
* time to live.
*
* so its resolution is 1) it's unsigned but 2) don't use the uppermost
* bit, presumably to avoid problems with implementations that were based
* on section 3.2.1 of RFC 1035 rather than on section 4.1.3 of RFC 1035.
*/
#include "config.h"
#include <epan/packet.h>
#include <epan/exceptions.h>
#include <epan/ipproto.h>
#include <epan/addr_resolv.h>
#include "packet-dns.h"
#include "packet-tcp.h"
#include "packet-ip.h"
#include <epan/prefs.h>
#include <epan/strutil.h>
#include <epan/expert.h>
#include <epan/afn.h>
#include <epan/tap.h>
#include <epan/stats_tree.h>
#include <wsutil/utf8_entities.h>
#include "packet-tls.h"
#include "packet-dtls.h"
#include "packet-http2.h"
void proto_register_dns(void);
void proto_reg_handoff_dns(void);
struct DnsTap {
guint packet_qr;
guint packet_qtype;
gint packet_qclass;
guint packet_rcode;
guint packet_opcode;
guint payload_size;
guint qname_len;
guint qname_labels;
guint nquestions;
guint nanswers;
guint nauthorities;
guint nadditionals;
gboolean unsolicited;
gboolean retransmission;
nstime_t rrt;
};
static int dns_tap = -1;
static const gchar* st_str_packets = "Total Packets";
static const gchar* st_str_packet_qr = "Query/Response";
static const gchar* st_str_packet_qtypes = "Query Type";
static const gchar* st_str_packet_qclasses = "Class";
static const gchar* st_str_packet_rcodes = "rcode";
static const gchar* st_str_packet_opcodes = "opcodes";
static const gchar* st_str_packets_avg_size = "Payload size";
static const gchar* st_str_query_stats = "Query Stats";
static const gchar* st_str_query_qname_len = "Qname Len";
static const gchar* st_str_query_domains = "Label Stats";
static const gchar* st_str_query_domains_l1 = "1st Level";
static const gchar* st_str_query_domains_l2 = "2nd Level";
static const gchar* st_str_query_domains_l3 = "3rd Level";
static const gchar* st_str_query_domains_lmore = "4th Level or more";
static const gchar* st_str_response_stats = "Response Stats";
static const gchar* st_str_response_nquestions = "no. of questions";
static const gchar* st_str_response_nanswers = "no. of answers";
static const gchar* st_str_response_nauthorities = "no. of authorities";
static const gchar* st_str_response_nadditionals = "no. of additionals";
static const gchar* st_str_service_stats = "Service Stats";
static const gchar* st_str_service_unsolicited = "no. of unsolicited responses";
static const gchar* st_str_service_retransmission = "no. of retransmissions";
static const gchar* st_str_service_rrt = "request-response time (msec)";
static int st_node_packets = -1;
static int st_node_packet_qr = -1;
static int st_node_packet_qtypes = -1;
static int st_node_packet_qclasses = -1;
static int st_node_packet_rcodes = -1;
static int st_node_packet_opcodes = -1;
static int st_node_packets_avg_size = -1;
static int st_node_query_stats = -1;
static int st_node_query_qname_len = -1;
static int st_node_query_domains = -1;
static int st_node_query_domains_l1 = -1;
static int st_node_query_domains_l2 = -1;
static int st_node_query_domains_l3 = -1;
static int st_node_query_domains_lmore = -1;
static int st_node_response_stats = -1;
static int st_node_response_nquestions = -1;
static int st_node_response_nanswers = -1;
static int st_node_response_nauthorities = -1;
static int st_node_response_nadditionals = -1;
static int st_node_service_stats = -1;
static int st_node_service_unsolicited = -1;
static int st_node_service_retransmission = -1;
static int st_node_service_rrt = -1;
static int proto_dns = -1;
static int proto_mdns = -1;
static int proto_llmnr = -1;
static int hf_dns_length = -1;
static int hf_dns_flags = -1;
static int hf_dns_flags_response = -1;
static int hf_dns_flags_opcode = -1;
static int hf_dns_flags_authoritative = -1;
static int hf_dns_flags_conflict_query = -1;
static int hf_dns_flags_conflict_response = -1;
static int hf_dns_flags_truncated = -1;
static int hf_dns_flags_recdesired = -1;
static int hf_dns_flags_tentative = -1;
static int hf_dns_flags_recavail = -1;
static int hf_dns_flags_z = -1;
static int hf_dns_flags_authenticated = -1;
static int hf_dns_flags_ad = -1;
static int hf_dns_flags_checkdisable = -1;
static int hf_dns_flags_rcode = -1;
static int hf_dns_transaction_id = -1;
static int hf_dns_count_questions = -1;
static int hf_dns_count_zones = -1;
static int hf_dns_count_answers = -1;
static int hf_dns_count_prerequisites = -1;
static int hf_dns_count_updates = -1;
static int hf_dns_count_auth_rr = -1;
static int hf_dns_count_add_rr = -1;
static int hf_dns_qry_name = -1;
static int hf_dns_qry_name_len = -1;
static int hf_dns_count_labels = -1;
static int hf_dns_qry_type = -1;
static int hf_dns_qry_class = -1;
static int hf_dns_qry_class_mdns = -1;
static int hf_dns_qry_qu = -1;
static int hf_dns_srv_instance = -1;
static int hf_dns_srv_service = -1;
static int hf_dns_srv_proto = -1;
static int hf_dns_srv_name = -1;
static int hf_dns_srv_priority = -1;
static int hf_dns_srv_weight = -1;
static int hf_dns_srv_port = -1;
static int hf_dns_srv_target = -1;
static int hf_dns_naptr_order = -1;
static int hf_dns_naptr_preference = -1;
static int hf_dns_naptr_flags_length = -1;
static int hf_dns_naptr_flags = -1;
static int hf_dns_naptr_service_length = -1;
static int hf_dns_naptr_service = -1;
static int hf_dns_naptr_regex_length = -1;
static int hf_dns_naptr_regex = -1;
static int hf_dns_naptr_replacement_length = -1;
static int hf_dns_naptr_replacement = -1;
static int hf_dns_rr_name = -1;
static int hf_dns_rr_type = -1;
static int hf_dns_rr_class = -1;
static int hf_dns_rr_class_mdns = -1;
static int hf_dns_rr_cache_flush = -1;
static int hf_dns_rr_ext_rcode = -1;
static int hf_dns_rr_edns0_version = -1;
static int hf_dns_rr_z = -1;
static int hf_dns_rr_z_do = -1;
static int hf_dns_rr_z_reserved = -1;
static int hf_dns_rr_ttl = -1;
static int hf_dns_rr_len = -1;
static int hf_dns_a = -1;
static int hf_dns_a_ch_domain = -1;
static int hf_dns_a_ch_addr = -1;
static int hf_dns_md = -1;
static int hf_dns_mf = -1;
static int hf_dns_mb = -1;
static int hf_dns_mg = -1;
static int hf_dns_mr = -1;
static int hf_dns_null = -1;
static int hf_dns_aaaa = -1;
static int hf_dns_cname = -1;
static int hf_dns_rr_udp_payload_size = -1;
static int hf_dns_rr_udp_payload_size_mdns = -1;
static int hf_dns_soa_mname = -1;
static int hf_dns_soa_rname = -1;
static int hf_dns_soa_serial_number = -1;
static int hf_dns_soa_refresh_interval = -1;
static int hf_dns_soa_retry_interval = -1;
static int hf_dns_soa_expire_limit = -1;
static int hf_dns_soa_minimum_ttl = -1;
static int hf_dns_ptr_domain_name = -1;
static int hf_dns_wks_address = -1;
static int hf_dns_wks_protocol = -1;
static int hf_dns_wks_bits = -1;
static int hf_dns_hinfo_cpu_length = -1;
static int hf_dns_hinfo_cpu = -1;
static int hf_dns_hinfo_os_length = -1;
static int hf_dns_hinfo_os = -1;
static int hf_dns_minfo_r_mailbox = -1;
static int hf_dns_minfo_e_mailbox = -1;
static int hf_dns_mx_preference = -1;
static int hf_dns_mx_mail_exchange = -1;
static int hf_dns_txt_length = -1;
static int hf_dns_txt = -1;
static int hf_dns_csync_soa = -1;
static int hf_dns_csync_flags = -1;
static int hf_dns_csync_flags_immediate = -1;
static int hf_dns_csync_flags_soaminimum = -1;
static int hf_dns_csync_type_bitmap = -1;
static int hf_dns_zonemd_serial = -1;
static int hf_dns_zonemd_scheme = -1;
static int hf_dns_zonemd_hash_algo = -1;
static int hf_dns_zonemd_digest = -1;
static int hf_dns_svcb_priority = -1;
static int hf_dns_svcb_target = -1;
static int hf_dns_svcb_param_key = -1;
static int hf_dns_svcb_param_length = -1;
static int hf_dns_svcb_param_value = -1;
static int hf_dns_svcb_param = -1;
static int hf_dns_svcb_param_mandatory_key = -1;
static int hf_dns_svcb_param_alpn_length = -1;
static int hf_dns_svcb_param_alpn = -1;
static int hf_dns_svcb_param_port = -1;
static int hf_dns_svcb_param_ipv4hint_ip = -1;
static int hf_dns_svcb_param_ipv6hint_ip = -1;
static int hf_dns_svcb_param_dohpath = -1;
static int hf_dns_svcb_param_odohconfig = -1;
static int hf_dns_openpgpkey = -1;
static int hf_dns_spf_length = -1;
static int hf_dns_spf = -1;
static int hf_dns_ilnp_nodeid_preference = -1;
static int hf_dns_ilnp_nodeid = -1;
static int hf_dns_ilnp_locator32_preference = -1;
static int hf_dns_ilnp_locator32 = -1;
static int hf_dns_ilnp_locator64_preference = -1;
static int hf_dns_ilnp_locator64 = -1;
static int hf_dns_ilnp_locatorfqdn_preference = -1;
static int hf_dns_ilnp_locatorfqdn = -1;
static int hf_dns_eui48 = -1;
static int hf_dns_eui64 = -1;
static int hf_dns_rrsig_type_covered = -1;
static int hf_dns_rrsig_algorithm = -1;
static int hf_dns_rrsig_labels = -1;
static int hf_dns_rrsig_original_ttl = -1;
static int hf_dns_rrsig_signature_expiration = -1;
static int hf_dns_rrsig_signature_inception = -1;
static int hf_dns_rrsig_key_tag = -1;
static int hf_dns_rrsig_signers_name = -1;
static int hf_dns_rrsig_signature = -1;
static int hf_dns_dnskey_flags = -1;
static int hf_dns_dnskey_flags_zone_key = -1;
static int hf_dns_dnskey_flags_key_revoked = -1;
static int hf_dns_dnskey_flags_secure_entry_point = -1;
static int hf_dns_dnskey_flags_reserved = -1;
static int hf_dns_dnskey_protocol = -1;
static int hf_dns_dnskey_algorithm = -1;
static int hf_dns_dnskey_key_id = -1;
static int hf_dns_dnskey_public_key = -1;
static int hf_dns_key_flags = -1;
static int hf_dns_key_flags_authentication = -1;
static int hf_dns_key_flags_confidentiality = -1;
static int hf_dns_key_flags_key_required = -1;
static int hf_dns_key_flags_associated_user = -1;
static int hf_dns_key_flags_associated_named_entity = -1;
static int hf_dns_key_flags_ipsec = -1;
static int hf_dns_key_flags_mime = -1;
static int hf_dns_key_flags_signatory = -1;
static int hf_dns_key_protocol = -1;
static int hf_dns_key_algorithm = -1;
static int hf_dns_key_key_id = -1;
static int hf_dns_key_public_key = -1;
static int hf_dns_px_preference = -1;
static int hf_dns_px_map822 = -1;
static int hf_dns_px_mapx400 = -1;
static int hf_dns_tkey_algo_name = -1;
static int hf_dns_tkey_signature_expiration = -1;
static int hf_dns_tkey_signature_inception = -1;
static int hf_dns_tkey_mode = -1;
static int hf_dns_tkey_error = -1;
static int hf_dns_tkey_key_size = -1;
static int hf_dns_tkey_key_data = -1;
static int hf_dns_tkey_other_size = -1;
static int hf_dns_tkey_other_data = -1;
static int hf_dns_ipseckey_gateway_precedence = -1;
static int hf_dns_ipseckey_gateway_type = -1;
static int hf_dns_ipseckey_gateway_algorithm = -1;
static int hf_dns_ipseckey_gateway_ipv4 = -1;
static int hf_dns_ipseckey_gateway_ipv6 = -1;
static int hf_dns_ipseckey_gateway_dns = -1;
static int hf_dns_ipseckey_public_key = -1;
static int hf_dns_xpf_ip_version = -1;
static int hf_dns_xpf_protocol = -1;
static int hf_dns_xpf_source_ipv4 = -1;
static int hf_dns_xpf_destination_ipv4 = -1;
static int hf_dns_xpf_source_ipv6 = -1;
static int hf_dns_xpf_destination_ipv6 = -1;
static int hf_dns_xpf_sport = -1;
static int hf_dns_xpf_dport = -1;
static int hf_dns_a6_prefix_len = -1;
static int hf_dns_a6_address_suffix = -1;
static int hf_dns_a6_prefix_name = -1;
static int hf_dns_dname = -1;
static int hf_dns_loc_version = -1;
static int hf_dns_loc_size = -1;
static int hf_dns_loc_horizontal_precision = -1;
static int hf_dns_loc_vertical_precision = -1;
static int hf_dns_loc_latitude = -1;
static int hf_dns_loc_longitude = -1;
static int hf_dns_loc_altitude = -1;
static int hf_dns_loc_unknown_data = -1;
static int hf_dns_nxt_next_domain_name = -1;
static int hf_dns_kx_preference = -1;
static int hf_dns_kx_key_exchange = -1;
static int hf_dns_cert_type = -1;
static int hf_dns_cert_key_tag = -1;
static int hf_dns_cert_algorithm = -1;
static int hf_dns_cert_certificate = -1;
static int hf_dns_nsec_next_domain_name = -1;
static int hf_dns_ns = -1;
static int hf_dns_opt = -1;
static int hf_dns_opt_code = -1;
static int hf_dns_opt_len = -1;
static int hf_dns_opt_data = -1;
static int hf_dns_opt_dau = -1;
static int hf_dns_opt_dhu = -1;
static int hf_dns_opt_n3u = -1;
static int hf_dns_opt_client_family = -1;
static int hf_dns_opt_client_netmask = -1;
static int hf_dns_opt_client_scope = -1;
static int hf_dns_opt_client_addr = -1;
static int hf_dns_opt_client_addr4 = -1;
static int hf_dns_opt_client_addr6 = -1;
static int hf_dns_opt_cookie_client = -1;
static int hf_dns_opt_cookie_server = -1;
static int hf_dns_opt_edns_tcp_keepalive_timeout = -1;
static int hf_dns_opt_padding = -1;
static int hf_dns_opt_chain_fqdn = -1;
static int hf_dns_opt_ext_error_info_code = -1;
static int hf_dns_opt_ext_error_extra_text = -1;
static int hf_dns_nsec3_algo = -1;
static int hf_dns_nsec3_flags = -1;
static int hf_dns_nsec3_flag_optout = -1;
static int hf_dns_nsec3_iterations = -1;
static int hf_dns_nsec3_salt_length = -1;
static int hf_dns_nsec3_salt_value = -1;
static int hf_dns_nsec3_hash_length = -1;
static int hf_dns_nsec3_hash_value = -1;
static int hf_dns_tlsa_certificate_usage = -1;
static int hf_dns_tlsa_selector = -1;
static int hf_dns_tlsa_matching_type = -1;
static int hf_dns_tlsa_certificate_association_data = -1;
static int hf_dns_tsig_algorithm_name = -1;
static int hf_dns_tsig_time_signed = -1;
static int hf_dns_tsig_error = -1;
static int hf_dns_tsig_fudge = -1;
static int hf_dns_tsig_mac_size = -1;
static int hf_dns_tsig_mac = -1;
static int hf_dns_tsig_original_id = -1;
static int hf_dns_tsig_other_len = -1;
static int hf_dns_tsig_other_data = -1;
static int hf_dns_response_in = -1;
static int hf_dns_response_to = -1;
static int hf_dns_retransmission = -1;
static int hf_dns_retransmit_request_in = -1;
static int hf_dns_retransmit_response_in = -1;
static int hf_dns_time = -1;
static int hf_dns_unsolicited = -1;
static int hf_dns_sshfp_algorithm = -1;
static int hf_dns_sshfp_fingerprint_type = -1;
static int hf_dns_sshfp_fingerprint = -1;
static int hf_dns_hip_hit_length = -1;
static int hf_dns_hip_pk_algo = -1;
static int hf_dns_hip_pk_length = -1;
static int hf_dns_hip_hit = -1;
static int hf_dns_hip_pk = -1;
static int hf_dns_hip_rendezvous_server = -1;
static int hf_dns_dhcid_rdata = -1;
static int hf_dns_ds_key_id = -1;
static int hf_dns_ds_algorithm = -1;
static int hf_dns_apl_coded_prefix = -1;
static int hf_dns_ds_digest_type = -1;
static int hf_dns_ds_digest = -1;
static int hf_dns_apl_address_family = -1;
static int hf_dns_apl_negation = -1;
static int hf_dns_apl_afdlength = -1;
static int hf_dns_apl_afdpart_ipv4 = -1;
static int hf_dns_apl_afdpart_ipv6 = -1;
static int hf_dns_apl_afdpart_data = -1;
static int hf_dns_gpos_longitude_length = -1;
static int hf_dns_gpos_longitude = -1;
static int hf_dns_gpos_latitude_length = -1;
static int hf_dns_gpos_latitude = -1;
static int hf_dns_gpos_altitude_length = -1;
static int hf_dns_gpos_altitude = -1;
static int hf_dns_rp_mailbox = -1;
static int hf_dns_rp_txt_rr = -1;
static int hf_dns_afsdb_subtype = -1;
static int hf_dns_afsdb_hostname = -1;
static int hf_dns_x25_length = -1;
static int hf_dns_x25_psdn_address = -1;
static int hf_dns_isdn_length = -1;
static int hf_dns_isdn_address = -1;
static int hf_dns_isdn_sa_length = -1;
static int hf_dns_isdn_sa = -1;
static int hf_dns_rt_preference = -1;
static int hf_dns_rt_intermediate_host = -1;
static int hf_dns_nsap_rdata = -1;
static int hf_dns_nsap_ptr_owner = -1;
static int hf_dns_caa_flags = -1;
static int hf_dns_caa_flag_issuer_critical = -1;
static int hf_dns_caa_issue = -1;
static int hf_dns_caa_issuewild = -1;
static int hf_dns_caa_iodef = -1;
static int hf_dns_caa_unknown = -1;
static int hf_dns_caa_tag_length = -1;
static int hf_dns_caa_tag = -1;
static int hf_dns_caa_value = -1;
static int hf_dns_extraneous_data = -1;
static int hf_dns_extraneous_length = -1;
static int hf_dns_wins_local_flag = -1;
static int hf_dns_wins_lookup_timeout = -1;
static int hf_dns_wins_cache_timeout = -1;
static int hf_dns_wins_nb_wins_servers = -1;
static int hf_dns_wins_server = -1;
static int hf_dns_winsr_local_flag = -1;
static int hf_dns_winsr_lookup_timeout = -1;
static int hf_dns_winsr_cache_timeout = -1;
static int hf_dns_winsr_name_result_domain = -1;
static int hf_dns_data = -1;
static int hf_dns_dso = -1;
static int hf_dns_dso_tlv = -1;
static int hf_dns_dso_tlv_type = -1;
static int hf_dns_dso_tlv_length = -1;
static int hf_dns_dso_tlv_data = -1;
static int hf_dns_dso_tlv_keepalive_inactivity = -1;
static int hf_dns_dso_tlv_keepalive_interval = -1;
static int hf_dns_dso_tlv_retrydelay_retrydelay = -1;
static int hf_dns_dso_tlv_encpad_padding = -1;
static gint ett_dns = -1;
static gint ett_dns_qd = -1;
static gint ett_dns_rr = -1;
static gint ett_dns_qry = -1;
static gint ett_dns_ans = -1;
static gint ett_dns_flags = -1;
static gint ett_dns_opts = -1;
static gint ett_nsec3_flags = -1;
static gint ett_key_flags = -1;
static gint ett_t_key = -1;
static gint ett_dns_mac = -1;
static gint ett_caa_flags = -1;
static gint ett_caa_data = -1;
static gint ett_dns_csdync_flags = -1;
static gint ett_dns_dso = -1;
static gint ett_dns_dso_tlv = -1;
static gint ett_dns_svcb = -1;
static gint ett_dns_extraneous = -1;
static expert_field ei_dns_a_class_undecoded = EI_INIT;
static expert_field ei_dns_opt_bad_length = EI_INIT;
static expert_field ei_dns_depr_opc = EI_INIT;
static expert_field ei_ttl_high_bit_set = EI_INIT;
static expert_field ei_dns_tsig_alg = EI_INIT;
static expert_field ei_dns_undecoded_option = EI_INIT;
static expert_field ei_dns_key_id_buffer_too_short = EI_INIT;
static expert_field ei_dns_retransmit_request = EI_INIT;
static expert_field ei_dns_retransmit_response = EI_INIT;
static expert_field ei_dns_extraneous_data = EI_INIT;
static dissector_table_t dns_tsig_dissector_table=NULL;
static dissector_handle_t dns_handle;
static dissector_handle_t mdns_udp_handle;
static dissector_handle_t llmnr_udp_handle;
static dissector_handle_t doq_handle;
/* desegmentation of DNS over TCP */
static gboolean dns_desegment = TRUE;
/* Maximum number of elapsed seconds between messages with the same
* transaction ID to be considered as a retransmission
*/
static guint32 retransmission_timer = 5;
/* Dissector handle for GSSAPI */
static dissector_handle_t gssapi_handle;
static dissector_handle_t ntlmssp_handle;
/* Dissector handle for TLS ECHConfig message */
static dissector_handle_t tls_echconfig_handle;
/* Transport protocol for DNS. */
enum DnsTransport {
DNS_TRANSPORT_UDP, /* includes compatible transports like SCTP */
DNS_TRANSPORT_TCP,
DNS_TRANSPORT_HTTP,
DNS_TRANSPORT_QUIC
};
/* Structure containing transaction specific information */
typedef struct _dns_transaction_t {
guint32 req_frame;
guint32 rep_frame;
nstime_t req_time;
guint id;
gboolean multiple_responds;
} dns_transaction_t;
/* Structure containing conversation specific information */
typedef struct _dns_conv_info_t {
wmem_tree_t *pdus;
} dns_conv_info_t;
/* DNS structs and definitions */
/* Ports used for DNS. */
#define DEFAULT_DNS_PORT_RANGE "53"
#define DEFAULT_DNS_TCP_PORT_RANGE "53,5353" /* Includes mDNS */
#define SCTP_PORT_DNS 53
#define UDP_PORT_MDNS 5353
#define UDP_PORT_LLMNR 5355
#define TCP_PORT_DNS_TLS 853
#define UDP_PORT_DNS_DTLS 853
#if 0
/* PPID used for DNS/SCTP (will be changed when IANA assigned) */
#define DNS_PAYLOAD_PROTOCOL_ID 1000
#endif
/* Offsets of fields in the DNS header. */
#define DNS_ID 0
#define DNS_FLAGS 2
#define DNS_QUEST 4
#define DNS_ANS 6
#define DNS_AUTH 8
#define DNS_ADD 10
/* Length of DNS header. */
#define DNS_HDRLEN 12
/* type values */
#define T_A 1 /* host address */
#define T_NS 2 /* authoritative name server */
#define T_MD 3 /* mail destination (obsolete) */
#define T_MF 4 /* mail forwarder (obsolete) */
#define T_CNAME 5 /* canonical name */
#define T_SOA 6 /* start of authority zone */
#define T_MB 7 /* mailbox domain name (experimental) */
#define T_MG 8 /* mail group member (experimental) */
#define T_MR 9 /* mail rename domain name (experimental) */
#define T_NULL 10 /* null RR (experimental) */
#define T_WKS 11 /* well known service */
#define T_PTR 12 /* domain name pointer */
#define T_HINFO 13 /* host information */
#define T_MINFO 14 /* mailbox or mail list information */
#define T_MX 15 /* mail routing information */
#define T_TXT 16 /* text strings */
#define T_RP 17 /* responsible person (RFC 1183) */
#define T_AFSDB 18 /* AFS data base location (RFC 1183) */
#define T_X25 19 /* X.25 address (RFC 1183) */
#define T_ISDN 20 /* ISDN address (RFC 1183) */
#define T_RT 21 /* route-through (RFC 1183) */
#define T_NSAP 22 /* OSI NSAP (RFC 1706) */
#define T_NSAP_PTR 23 /* PTR equivalent for OSI NSAP (RFC 1348 - obsolete) */
#define T_SIG 24 /* digital signature (RFC 2535) */
#define T_KEY 25 /* public key (RFC 2535) */
#define T_PX 26 /* pointer to X.400/RFC822 mapping info (RFC 1664) */
#define T_GPOS 27 /* geographical position (RFC 1712) */
#define T_AAAA 28 /* IPv6 address (RFC 1886) */
#define T_LOC 29 /* geographical location (RFC 1876) */
#define T_NXT 30 /* "next" name (RFC 2535) */
#define T_EID 31 /* Endpoint Identifier */
#define T_NIMLOC 32 /* Nimrod Locator */
#define T_SRV 33 /* service location (RFC 2052) */
#define T_ATMA 34 /* ATM Address */
#define T_NAPTR 35 /* naming authority pointer (RFC 3403) */
#define T_KX 36 /* Key Exchange (RFC 2230) */
#define T_CERT 37 /* Certificate (RFC 4398) */
#define T_A6 38 /* IPv6 address with indirection (RFC 2874 - obsolete) */
#define T_DNAME 39 /* Non-terminal DNS name redirection (RFC 2672) */
#define T_SINK 40 /* SINK */
#define T_OPT 41 /* OPT pseudo-RR (RFC 2671) */
#define T_APL 42 /* Lists of Address Prefixes (APL RR) (RFC 3123) */
#define T_DS 43 /* Delegation Signer (RFC 4034) */
#define T_SSHFP 44 /* Using DNS to Securely Publish SSH Key Fingerprints (RFC 4255) */
#define T_IPSECKEY 45 /* RFC 4025 */
#define T_RRSIG 46 /* RFC 4034 */
#define T_NSEC 47 /* RFC 4034 */
#define T_DNSKEY 48 /* RFC 4034 */
#define T_DHCID 49 /* DHCID RR (RFC 4701) */
#define T_NSEC3 50 /* Next secure hash (RFC 5155) */
#define T_NSEC3PARAM 51 /* NSEC3 parameters (RFC 5155) */
#define T_TLSA 52 /* TLSA (RFC 6698) */
#define T_HIP 55 /* Host Identity Protocol (HIP) RR (RFC 5205) */
#define T_NINFO 56 /* NINFO */
#define T_RKEY 57 /* RKEY */
#define T_TALINK 58 /* Trust Anchor LINK */
#define T_CDS 59 /* Child DS (RFC7344)*/
#define T_CDNSKEY 60 /* DNSKEY(s) the Child wants reflected in DS ( [RFC7344])*/
#define T_OPENPGPKEY 61 /* OPENPGPKEY draft-ietf-dane-openpgpkey-00 */
#define T_CSYNC 62 /* Child To Parent Synchronization (RFC7477) */
#define T_ZONEMD 63 /* Message Digest for DNS Zones (RFC8976) */
#define T_SVCB 64 /* draft-ietf-dnsop-svcb-https-01 */
#define T_HTTPS 65 /* draft-ietf-dnsop-svcb-https-01 */
#define T_SPF 99 /* SPF RR (RFC 4408) section 3 */
#define T_UINFO 100 /* [IANA-Reserved] */
#define T_UID 101 /* [IANA-Reserved] */
#define T_GID 102 /* [IANA-Reserved] */
#define T_UNSPEC 103 /* [IANA-Reserved] */
#define T_NID 104 /* ILNP [RFC6742] */
#define T_L32 105 /* ILNP [RFC6742] */
#define T_L64 106 /* ILNP [RFC6742] */
#define T_LP 107 /* ILNP [RFC6742] */
#define T_EUI48 108 /* EUI 48 Address (RFC7043) */
#define T_EUI64 109 /* EUI 64 Address (RFC7043) */
#define T_TKEY 249 /* Transaction Key (RFC 2930) */
#define T_TSIG 250 /* Transaction Signature (RFC 2845) */
#define T_IXFR 251 /* incremental transfer (RFC 1995) */
#define T_AXFR 252 /* transfer of an entire zone (RFC 5936) */
#define T_MAILB 253 /* mailbox-related RRs (MB, MG or MR) (RFC 1035) */
#define T_MAILA 254 /* mail agent RRs (OBSOLETE - see MX) (RFC 1035) */
#define T_ANY 255 /* A request for all records (RFC 1035) */
#define T_URI 256 /* URI */
#define T_CAA 257 /* Certification Authority Authorization (RFC 6844) */
#define T_AVC 258 /* Application Visibility and Control (Wolfgang_Riedel) */
#define T_DOA 259 /* Digital Object Architecture (draft-durand-doa-over-dns) */
#define T_AMTRELAY 260 /* Automatic Multicast Tunneling Relay (RFC8777) */
#define T_TA 32768 /* DNSSEC Trust Authorities */
#define T_DLV 32769 /* DNSSEC Lookaside Validation (DLV) DNS Resource Record (RFC 4431) */
#define T_WINS 65281 /* Microsoft's WINS RR */
#define T_WINS_R 65282 /* Microsoft's WINS-R RR */
#define T_XPF 65422 /* XPF draft-bellis-dnsop-xpf */
/* Class values */
#define C_IN 1 /* the Internet */
#define C_CS 2 /* CSNET (obsolete) */
#define C_CH 3 /* CHAOS */
#define C_HS 4 /* Hesiod */
#define C_NONE 254 /* none */
#define C_ANY 255 /* any */
#define C_QU (1<<15) /* High bit is set in queries for unicast queries */
#define C_FLUSH (1<<15) /* High bit is set for MDNS cache flush */
/* Bit fields in the flags */
#define F_RESPONSE (1<<15) /* packet is response */
#define F_OPCODE (0xF<<11) /* query opcode */
#define OPCODE_SHIFT 11
#define F_AUTHORITATIVE (1<<10) /* response is authoritative */
#define F_CONFLICT (1<<10) /* conflict detected */
#define F_TRUNCATED (1<<9) /* response is truncated */
#define F_RECDESIRED (1<<8) /* recursion desired */
#define F_TENTATIVE (1<<8) /* response is tentative */
#define F_RECAVAIL (1<<7) /* recursion available */
#define F_Z (1<<6) /* Z */
#define F_AUTHENTIC (1<<5) /* authentic data (RFC2535) */
#define F_CHECKDISABLE (1<<4) /* checking disabled (RFC2535) */
#define F_RCODE (0xF<<0) /* reply code */
/* Optcode values for EDNS0 options (RFC 2671) */
#define O_LLQ 1 /* Long-lived query (on-hold, draft-sekar-dns-llq) */
#define O_UL 2 /* Update lease (on-hold, draft-sekar-dns-ul) */
#define O_NSID 3 /* Name Server Identifier (RFC 5001) */
#define O_OWNER 4 /* Owner, reserved (draft-cheshire-edns0-owner-option) */
#define O_DAU 5 /* DNSSEC Algorithm Understood (RFC6975) */
#define O_DHU 6 /* DS Hash Understood (RFC6975) */
#define O_N3U 7 /* NSEC3 Hash Understood (RFC6975) */
#define O_CLIENT_SUBNET 8 /* Client subnet as assigned by IANA */
#define O_EDNS_EXPIRE 9 /* EDNS Expire (RFC7314) */
#define O_CLIENT_SUBNET_EXP 0x50fa /* Client subnet (placeholder value, draft-vandergaast-edns-client-subnet) */
#define O_COOKIE 10 /* Cookies (RFC7873) */
#define O_EDNS_TCP_KA 11 /* edns-tcp-keepalive EDNS0 Option (RFC7828) */
#define O_PADDING 12 /* EDNS(0) Padding Option (RFC7830) */
#define O_CHAIN 13 /* draft-ietf-dnsop-edns-chain-query */
#define O_EXT_ERROR 15 /* Extended DNS Errors (RFC8914) */
#define MIN_DNAME_LEN 2 /* minimum domain name length */
static const true_false_string tfs_flags_response = {
"Message is a response",
"Message is a query"
};
static const true_false_string tfs_flags_authoritative = {
"Server is an authority for domain",
"Server is not an authority for domain"
};
static const true_false_string tfs_flags_conflict_query = {
"The sender received multiple responses",
"None"
};
static const true_false_string tfs_flags_conflict_response = {
"The name is not considered unique",
"The name is considered unique"
};
static const true_false_string tfs_flags_truncated = {
"Message is truncated",
"Message is not truncated"
};
static const true_false_string tfs_flags_recdesired = {
"Do query recursively",
"Don't do query recursively"
};
static const true_false_string tfs_flags_tentative = {
"Tentative",
"Not tentative"
};
static const true_false_string tfs_flags_recavail = {
"Server can do recursive queries",
"Server can't do recursive queries"
};
static const true_false_string tfs_flags_z = {
"reserved - incorrect!",
"reserved (0)"
};
static const true_false_string tfs_flags_authenticated = {
"Answer/authority portion was authenticated by the server",
"Answer/authority portion was not authenticated by the server"
};
static const true_false_string tfs_flags_checkdisable = {
"Acceptable",
"Unacceptable"
};
static const true_false_string tfs_dns_rr_z_do = {
"Accepts DNSSEC security RRs",
"Cannot handle DNSSEC security RRs"
};
/* Opcodes */
#define OPCODE_QUERY 0 /* standard query */
#define OPCODE_IQUERY 1 /* inverse query */
#define OPCODE_STATUS 2 /* server status request */
#define OPCODE_NOTIFY 4 /* zone change notification */
#define OPCODE_UPDATE 5 /* dynamic update */
#define OPCODE_DSO 6 /* DNS stateful operations */
static const value_string opcode_vals[] = {
{ OPCODE_QUERY, "Standard query" },
{ OPCODE_IQUERY, "Inverse query" },
{ OPCODE_STATUS, "Server status request" },
{ OPCODE_NOTIFY, "Zone change notification" },
{ OPCODE_UPDATE, "Dynamic update" },
{ OPCODE_DSO, "DNS Stateful operations (DSO)" },
{ 0, NULL } };
/* Reply codes */
#define RCODE_NOERROR 0
#define RCODE_FORMERR 1
#define RCODE_SERVFAIL 2
#define RCODE_NXDOMAIN 3
#define RCODE_NOTIMPL 4
#define RCODE_REFUSED 5
#define RCODE_YXDOMAIN 6
#define RCODE_YXRRSET 7
#define RCODE_NXRRSET 8
#define RCODE_NOTAUTH 9
#define RCODE_NOTZONE 10
#define RCODE_DSOTYPENI 11
#define RCODE_BAD 16
#define RCODE_BADKEY 17
#define RCODE_BADTIME 18
#define RCODE_BADMODE 19
#define RCODE_BADNAME 20
#define RCODE_BADALG 21
#define RCODE_BADTRUNC 22
#define RCODE_BADCOOKIE 23
static const value_string rcode_vals[] = {
{ RCODE_NOERROR, "No error" },
{ RCODE_FORMERR, "Format error" },
{ RCODE_SERVFAIL, "Server failure" },
{ RCODE_NXDOMAIN, "No such name" },
{ RCODE_NOTIMPL, "Not implemented" },
{ RCODE_REFUSED, "Refused" },
{ RCODE_YXDOMAIN, "Name exists" },
{ RCODE_YXRRSET, "RRset exists" },
{ RCODE_NXRRSET, "RRset does not exist" },
{ RCODE_NOTAUTH, "Not authoritative" },
{ RCODE_NOTZONE, "Name out of zone" },
{ RCODE_DSOTYPENI, "DSO-Type not implemented" },
/* 12-15 Unassigned */
{ RCODE_BAD, "Bad OPT Version or TSIG Signature Failure" },
{ RCODE_BADKEY, "Key not recognized" },
{ RCODE_BADTIME, "Signature out of time window" },
{ RCODE_BADMODE, "Bad TKEY Mode" },
{ RCODE_BADNAME, "Duplicate key name" },
{ RCODE_BADALG, "Algorithm not supported" },
{ RCODE_BADTRUNC, "Bad Truncation" },
{ RCODE_BADCOOKIE, "Bad/missing Server Cookie" },
{ 0, NULL }
};
#define NSEC3_HASH_RESERVED 0
#define NSEC3_HASH_SHA1 1
#define NSEC3_FLAG_OPTOUT 1
static const value_string hash_algorithms[] = {
{ NSEC3_HASH_RESERVED, "Reserved" },
{ NSEC3_HASH_SHA1, "SHA-1" },
{ 0, NULL } };
static const true_false_string tfs_flags_nsec3_optout = {
"Additional insecure delegations allowed",
"Additional insecure delegations forbidden"
};
static const true_false_string tfs_required_experimental = { "Experimental or optional", "Required" };
#define TKEYMODE_SERVERASSIGNED (1)
#define TKEYMODE_DIFFIEHELLMAN (2)
#define TKEYMODE_GSSAPI (3)
#define TKEYMODE_RESOLVERASSIGNED (4)
#define TKEYMODE_DELETE (5)
static const value_string tkey_mode_vals[] = {
{ TKEYMODE_SERVERASSIGNED, "Server assigned" },
{ TKEYMODE_DIFFIEHELLMAN, "Diffie Hellman" },
{ TKEYMODE_GSSAPI, "GSSAPI" },
{ TKEYMODE_RESOLVERASSIGNED, "Resolver assigned" },
{ TKEYMODE_DELETE, "Delete" },
{ 0, NULL }
};
/*
* SSHFP (RFC 4255) algorithm number and fingerprint types
*/
#define TSSHFP_ALGO_RESERVED (0)
#define TSSHFP_ALGO_RSA (1)
#define TSSHFP_ALGO_DSA (2)
#define TSSHFP_ALGO_ECDSA (3)
#define TSSHFP_ALGO_ED25519 (4)
#define TSSHFP_ALGO_XMSS (5)
#define TSSHFP_FTYPE_RESERVED (0)
#define TSSHFP_FTYPE_SHA1 (1)
#define TSSHFP_FTYPE_SHA256 (2)
static const value_string sshfp_algo_vals[] = {
{ TSSHFP_ALGO_RESERVED, "Reserved" },
{ TSSHFP_ALGO_RSA, "RSA" },
{ TSSHFP_ALGO_DSA, "DSA" },
{ TSSHFP_ALGO_ECDSA, "ECDSA" },
{ TSSHFP_ALGO_ED25519, "Ed25519" },
{ TSSHFP_ALGO_XMSS, "XMSS" },
{ 0, NULL }
};
static const value_string sshfp_fingertype_vals[] = {
{ TSSHFP_FTYPE_RESERVED, "Reserved" },
{ TSSHFP_FTYPE_SHA1, "SHA1" },
{ TSSHFP_FTYPE_SHA256, "SHA256" },
{ 0, NULL }
};
/* HIP PK ALGO RFC 5205 */
#define THIP_ALGO_RESERVED (0)
#define THIP_ALGO_DSA (1)
#define THIP_ALGO_RSA (2)
static const value_string hip_algo_vals[] = {
{ THIP_ALGO_DSA, "DSA" },
{ THIP_ALGO_RSA, "RSA" },
{ THIP_ALGO_RESERVED, "Reserved" },
{ 0, NULL }
};
/* RFC 3123 */
#define DNS_APL_NEGATION (1<<7)
#define DNS_APL_AFDLENGTH (0x7F<<0)
static const true_false_string tfs_dns_apl_negation = {
"Yes (!)",
"No (0)"
};
/* RFC 6844 */
#define CAA_FLAG_ISSUER_CRITICAL (1<<7)
/* See RFC 1035 for all RR types for which no RFC is listed, except for
the ones with "???", and for the Microsoft WINS and WINS-R RRs, for
which one should look at
http://www.windows.com/windows2000/en/server/help/sag_DNS_imp_UsingWinsLookup.htm
and
http://www.microsoft.com/windows2000/library/resources/reskit/samplechapters/cncf/cncf_imp_wwaw.asp
which discuss them to some extent. */
/* http://www.iana.org/assignments/dns-parameters (last updated 2015-07-26)*/
static const value_string dns_qr_vals[] = {
{ 0, "Query" },
{ 1, "Response" },
{ 0, NULL }
};
static const value_string dns_types_vals[] = {
{ 0, "Unused" },
{ T_A, "A" },
{ T_NS, "NS" },
{ T_MD, "MD" },
{ T_MF, "MF" },
{ T_CNAME, "CNAME" },
{ T_SOA, "SOA" },
{ T_MB, "MB" },
{ T_MG, "MG" },
{ T_MR, "MR" },
{ T_NULL, "NULL" },
{ T_WKS, "WKS" },
{ T_PTR, "PTR" },
{ T_HINFO, "HINFO" },
{ T_MINFO, "MINFO" },
{ T_MX, "MX" },
{ T_TXT, "TXT" },
{ T_RP, "RP" }, /* RFC 1183 */
{ T_AFSDB, "AFSDB" }, /* RFC 1183 */
{ T_X25, "X25" }, /* RFC 1183 */
{ T_ISDN, "ISDN" }, /* RFC 1183 */
{ T_RT, "RT" }, /* RFC 1183 */
{ T_NSAP, "NSAP" }, /* RFC 1706 */
{ T_NSAP_PTR, "NSAP-PTR" }, /* RFC 1348 */
{ T_SIG, "SIG" }, /* RFC 2535 */
{ T_KEY, "KEY" }, /* RFC 2535 */
{ T_PX, "PX" }, /* RFC 1664 */
{ T_GPOS, "GPOS" }, /* RFC 1712 */
{ T_AAAA, "AAAA" }, /* RFC 1886 */
{ T_LOC, "LOC" }, /* RFC 1886 */
{ T_NXT, "NXT" }, /* RFC 1876 */
{ T_EID, "EID" },
{ T_NIMLOC, "NIMLOC" },
{ T_SRV, "SRV" }, /* RFC 2052 */
{ T_ATMA, "ATMA" },
{ T_NAPTR, "NAPTR" }, /* RFC 3403 */
{ T_KX, "KX" }, /* RFC 2230 */
{ T_CERT, "CERT" }, /* RFC 4398 */
{ T_A6, "A6" }, /* RFC 2874 */
{ T_DNAME, "DNAME" }, /* RFC 2672 */
{ T_SINK, "SINK" },
{ T_OPT, "OPT" }, /* RFC 2671 */
{ T_APL, "APL" }, /* RFC 3123 */
{ T_DS, "DS" }, /* RFC 4034 */
{ T_SSHFP, "SSHFP" }, /* RFC 4255 */
{ T_IPSECKEY, "IPSECKEY" }, /* RFC 4025 */
{ T_RRSIG, "RRSIG" }, /* RFC 4034 */
{ T_NSEC, "NSEC" }, /* RFC 4034 */
{ T_DNSKEY, "DNSKEY" }, /* RFC 4034 */
{ T_DHCID, "DHCID" }, /* RFC 4701 */
{ T_NSEC3, "NSEC3" }, /* RFC 5155 */
{ T_NSEC3PARAM, "NSEC3PARAM" }, /* RFC 5155 */
{ T_TLSA, "TLSA" },
{ T_HIP, "HIP" }, /* RFC 5205 */
{ T_RKEY, "RKEY" },
{ T_TALINK, "TALINK" },
{ T_CDS, "CDS" }, /* RFC 7344 */
{ T_CDNSKEY, "CDNSKEY" }, /* RFC 7344*/
{ T_OPENPGPKEY, "OPENPGPKEY" }, /* draft-ietf-dane-openpgpkey */
{ T_CSYNC, "CSYNC" }, /* RFC 7477 */
{ T_ZONEMD, "ZONEMD" }, /* RFC 8976 */
{ T_SVCB, "SVCB" }, /* draft-ietf-dnsop-svcb-https-01 */
{ T_HTTPS, "HTTPS" }, /* draft-ietf-dnsop-svcb-https-01 */
{ T_SPF, "SPF" }, /* RFC 4408 */
{ T_UINFO, "UINFO" }, /* IANA reserved */
{ T_UID, "UID" }, /* IANA reserved */
{ T_GID, "GID" }, /* IANA reserved */
{ T_UNSPEC, "UNSPEC" }, /* IANA reserved */
{ T_NID, "NID" }, /* RFC 6742 */
{ T_L32, "L32" }, /* RFC 6742 */
{ T_L64, "L64" }, /* RFC 6742 */
{ T_LP, "LP" }, /* RFC 6742 */
{ T_EUI48, "EUI48" }, /* RFC 7043 */
{ T_EUI64, "EUI64" }, /* RFC 7043 */
{ T_TKEY, "TKEY" },
{ T_TSIG, "TSIG" },
{ T_IXFR, "IXFR" },
{ T_AXFR, "AXFR" },
{ T_MAILB, "MAILB" },
{ T_MAILA, "MAILA" },
{ T_ANY, "ANY" },
{ T_URI, "URI" },
{ T_CAA, "CAA" }, /* RFC 6844 */
{ T_AVC, "AVC" },
{ T_DOA, "DOA" }, /* (draft-durand-doa-over-dns) */
{ T_AMTRELAY, "AMTRELAY" }, /* RFC8777 */
{ T_TA, "TA" },
{ T_DLV, "DLV" }, /* RFC 4431 */
{ T_WINS, "WINS" },
{ T_WINS_R, "WINS-R" },
{ T_XPF, "XPF" }, /* draft-bellis-dnsop-xpf */
{0, NULL}
};
static value_string_ext dns_types_vals_ext = VALUE_STRING_EXT_INIT(dns_types_vals);
static const value_string dns_types_description_vals[] = {
{ 0, "" },
{ T_A, "(Host Address)" },
{ T_NS, "(authoritative Name Server)" },
{ T_MD, "(Mail Destination)" },
{ T_MF, "(Mail Forwarder)" },
{ T_CNAME, "(Canonical NAME for an alias)" },
{ T_SOA, "(Start Of a zone of Authority)" },
{ T_MB, "(MailBox domain name)"},
{ T_MG, "(Mail Group member)" },
{ T_MR, "(Mail Rename domain)" },
{ T_NULL, "(RR)" },
{ T_WKS, "(Well Known Service)" },
{ T_PTR, "(domain name PoinTeR)" },
{ T_HINFO, "(host information)" },
{ T_MINFO, "(Mailbox or mail list information)" },
{ T_MX, "(Mail eXchange)" },
{ T_TXT, "(Text strings)" },
{ T_RP, "(Responsible Person)" }, /* RFC 1183 */
{ T_AFSDB, "(AFS Data Base location)" }, /* RFC 1183 */
{ T_X25, "(XX.25 PSDN address)" }, /* RFC 1183 */
{ T_ISDN, "(ISDN address)" }, /* RFC 1183 */
{ T_RT, "(Route Through)" }, /* RFC 1183 */
{ T_NSAP, "(NSAP address)" },
{ T_NSAP_PTR, "(NSAP domain name pointer)" },
{ T_SIG, "(security signature)" },
{ T_KEY, "(security key)" },
{ T_PX, "(X.400 mail mapping information)" },
{ T_GPOS, "(Geographical Position)" },
{ T_AAAA, "(IP6 Address)" },
{ T_LOC, "(Location Information)" },
{ T_NXT, "(Next Domain)" },
{ T_EID, "(Endpoint Identifier)" },
{ T_NIMLOC, "(Nimrod Locator)" },
{ T_SRV, "(Server Selection)" },
{ T_ATMA, "(ATM Address)" },
{ T_NAPTR, "(Naming Authority Pointer)" },
{ T_KX, "(Key Exchanger)" },
{ T_CERT, "" },
{ T_A6, "(OBSOLETE - use AAAA)" },
{ T_DNAME, "" },
{ T_SINK, "" },
{ T_OPT, "" },
{ T_APL, "" },
{ T_DS, "(Delegation Signer)" },
{ T_SSHFP, "(SSH Key Fingerprint)" },
{ T_IPSECKEY, "" },
{ T_RRSIG, "(Resource Record Signature)" },
{ T_NSEC, "(Next Secure)" },
{ T_DNSKEY, "(DNS Public Key)" },
{ T_DHCID, "" },
{ T_NSEC3, "" },
{ T_NSEC3PARAM, "" },
{ T_TLSA, "" },
{ T_HIP, "(Host Identity Protocol)" }, /* RFC 5205 */
{ T_RKEY, "" },
{ T_TALINK, "(Trust Anchor LINK)" },
{ T_CDS, "(Child DS)" }, /* RFC 7344 */
{ T_CDNSKEY, "(DNSKEY(s) the Child wants reflected in DS)" }, /* RFC 7344 */
{ T_OPENPGPKEY, "(OpenPGP Key)" }, /* draft-ietf-dane-openpgpkey */
{ T_CSYNC, "(Child-to-Parent Synchronization)" }, /* RFC 7477 */
{ T_ZONEMD, "" }, /* RFC 8976 */
{ T_SVCB, "(General Purpose Service Endpoints)" }, /* draft-ietf-dnsop-svcb-https*/
{ T_HTTPS, "(HTTPS Specific Service Endpoints)" }, /* draft-ietf-dnsop-svcb-https*/
{ T_SPF, "" }, /* RFC 4408 */
{ T_UINFO, "" }, /* IANA reserved */
{ T_UID, "" }, /* IANA reserved */
{ T_GID, "" }, /* IANA reserved */
{ T_UNSPEC, "" }, /* IANA reserved */
{ T_NID, "(NodeID)" },
{ T_L32, "(Locator32)" },
{ T_L64, "(Locator64)" },
{ T_LP, "(Locator FQDN)" },
{ T_EUI48, "" },
{ T_EUI64, "" },
{ T_TKEY, "(Transaction Key)" },
{ T_TSIG, "(Transaction Signature)" },
{ T_IXFR, "(incremental transfer)" },
{ T_AXFR, "(transfer of an entire zone)" },
{ T_MAILB, "(mailbox-related RRs)" },
{ T_MAILA, "(mail agent RRs)" },
{ T_ANY, "(A request for all records the server/cache has available)" },
{ T_URI, "" },
{ T_CAA, "(Certification Authority Restriction)" }, /* RFC 6844 */
{ T_AVC, "(Application Visibility and Control)" },
{ T_DOA, "(Digital Object Architecture)" }, /* (draft-durand-doa-over-dns) */
{ T_AMTRELAY, "(Automatic Multicast Tunneling Relay)" }, /* RFC8777 */
{ T_TA, "(DNSSEC Trust Authorities)" },
{ T_DLV, "(DNSSEC Lookaside Validation)" }, /* RFC 4431 */
{ T_WINS, "" },
{ T_WINS_R, "" },
{ T_XPF, "" }, /* draft-bellis-dnsop-xpf */
{0, NULL}
};
static value_string_ext dns_types_description_vals_ext = VALUE_STRING_EXT_INIT(dns_types_description_vals);
static const value_string edns0_opt_code_vals[] = {
{0, "Reserved"},
{O_LLQ, "LLQ - Long-lived query"},
{O_UL, "UL - Update lease"},
{O_NSID, "NSID - Name Server Identifier"},
{O_OWNER, "Owner (reserved)"},
{O_DAU, "DAU - DNSSEC Algorithm Understood (RFC6975)"},
{O_DHU, "DHU - DS Hash Understood (RFC6975)"},
{O_N3U, "N3U - NSEC3 Hash Understood (RFC6975)"},
{O_CLIENT_SUBNET_EXP, "Experimental - CSUBNET - Client subnet" },
{O_CLIENT_SUBNET, "CSUBNET - Client subnet" },
{O_EDNS_EXPIRE, "EDNS EXPIRE (RFC7314)"},
{O_COOKIE, "COOKIE"},
{O_EDNS_TCP_KA, "EDNS TCP Keepalive"},
{O_PADDING, "PADDING"},
{O_CHAIN, "CHAIN"},
{O_EXT_ERROR, "Extended DNS Error"},
{0, NULL}
};
/* DNS-Based Authentication of Named Entities (DANE) Parameters
http://www.iana.org/assignments/dane-parameters (last updated 2014-04-23)
*/
/* TLSA Certificate Usages */
#define TLSA_CU_PKIX_TA 0
#define TLSA_CU_PKIX_EE 1
#define TLSA_CU_DANE_TA 2
#define TLSA_CU_DANE_EE 3
static const value_string tlsa_certificate_usage_vals[] = {
{TLSA_CU_PKIX_TA, "CA constraint (PKIX-TA)"},
{TLSA_CU_PKIX_EE, "Service certificate constraint (PKIX-EE)"},
{TLSA_CU_DANE_TA, "Trust anchor assertion (DANE-TA)"},
{TLSA_CU_DANE_EE, "Domain-issued certificate (DANE-EE)"},
{0, NULL}
};
/* TLSA Selectors */
#define TLSA_S_CERT 0
#define TLSA_S_SPKI 1
static const value_string tlsa_selector_vals[] = {
{TLSA_S_CERT, "Full certificate (Cert)"},
{TLSA_S_SPKI, "SubjectPublicKeyInfo (SPKI)"},
{0, NULL}
};
/* TLSA Matching Types */
#define TLSA_MT_FULL 0
#define TLSA_MT_SHA_256 1
#define TLSA_MT_SHA_512 2
static const value_string tlsa_matching_type_vals[] = {
{TLSA_MT_FULL, "No Hash Used (Full)"},
{TLSA_MT_SHA_256, "256 bit hash by SHA2 (SHA2-256)"},
{TLSA_MT_SHA_512, "512 bit hash by SHA2 (SHA2-512)"},
{0, NULL}
};
/* IPSECKEY RFC4025 */
/* IPSECKEY RFC8005 */
/* IPSECKEY RFC9373 */
static const value_string gw_algo_vals[] = {
{ 1, "DSA" },
{ 2, "RSA" },
{ 3, "ECDSA" },
{ 4, "EdDSA" },
{ 0, NULL }
};
static const value_string gw_type_vals[] = {
{ 0, "No Gateway" },
{ 1, "IPv4 Gateway" },
{ 2, "IPv6 Gateway" },
{ 3, "DNS Gateway" },
{ 0, NULL }
};
const value_string dns_classes[] = {
{C_IN, "IN"},
{C_CS, "CS"},
{C_CH, "CH"},
{C_HS, "HS"},
{C_NONE, "NONE"},
{C_ANY, "ANY"},
{0,NULL}
};
/* DSO Type Opcodes RFC8490 */
#define DSO_TYPE_RES 0x0000 /* RFC8490 */
#define DSO_TYPE_KEEPALIVE 0x0001 /* RFC8490 */
#define DSO_TYPE_RETRYDELAY 0x0002 /* RFC8490 */
#define DSO_TYPE_ENCPAD 0x0003 /* RFC8490 */
#define DSO_TYPE_SUBSCRIBE 0x0040 /* RF8765 */
#define DSO_TYPE_PUSH 0x0041 /* RF8765 */
#define DSO_TYPE_UNSUBSCRIBE 0x0042 /* RF8765 */
#define DSO_TYPE_RECONFIRM 0x0043 /* RF8765 */
static const range_string dns_dso_type_rvals[] = {
{ DSO_TYPE_RES, DSO_TYPE_RES, "Reserved" },
{ DSO_TYPE_KEEPALIVE, DSO_TYPE_KEEPALIVE, "Keep Alive" },
{ DSO_TYPE_RETRYDELAY, DSO_TYPE_RETRYDELAY, "Retry Delay" },
{ DSO_TYPE_ENCPAD, DSO_TYPE_ENCPAD, "Encryption Padding" },
{ 0x0004, 0x003F, "Unassigned, reserved for DSO session-management TLVs" },
{ DSO_TYPE_SUBSCRIBE, DSO_TYPE_SUBSCRIBE, "Subscribe" },
{ DSO_TYPE_PUSH, DSO_TYPE_PUSH, "Push" },
{ DSO_TYPE_UNSUBSCRIBE, DSO_TYPE_UNSUBSCRIBE, "Unsubscribe" },
{ DSO_TYPE_RECONFIRM, DSO_TYPE_RECONFIRM, "Reconfirm" },
{ 0x0044, 0xF7FF, "Unassigned" },
{ 0xF800, 0xFBFF, "Reserved for Experimental/Local Use" },
{ 0xFC00, 0xFFFF, "Reserved for future expansion" },
{ 0, 0, NULL }
};
#define DNS_SVCB_KEY_MANDATORY 0
#define DNS_SVCB_KEY_ALPN 1
#define DNS_SVCB_KEY_NOALPN 2
#define DNS_SVCB_KEY_PORT 3
#define DNS_SVCB_KEY_IPV4HINT 4
#define DNS_SVCB_KEY_ECH 5 /* draft-ietf-tls-svcb-ech-00 */
#define DNS_SVCB_KEY_IPV6HINT 6
#define DNS_SVCB_KEY_DOHPATH 7 /* draft-ietf-add-svcb-dns-08 */
#define DNS_SVCB_KEY_ODOHCONFIG 32769 /* draft-pauly-dprive-oblivious-doh-02 */
#define DNS_SVCB_KEY_RESERVED 65535
/**
* Service Binding (SVCB) Parameter Registry.
* https://tools.ietf.org/html/draft-ietf-dnsop-svcb-https-12#section-14.3.2
*/
static const value_string dns_svcb_param_key_vals[] = {
{ DNS_SVCB_KEY_MANDATORY, "mandatory" },
{ DNS_SVCB_KEY_ALPN, "alpn" },
{ DNS_SVCB_KEY_NOALPN, "no-default-alpn" },
{ DNS_SVCB_KEY_PORT, "port" },
{ DNS_SVCB_KEY_IPV4HINT, "ipv4hint" },
{ DNS_SVCB_KEY_ECH, "ech" },
{ DNS_SVCB_KEY_IPV6HINT, "ipv6hint" },
{ DNS_SVCB_KEY_DOHPATH, "dohpath" },
{ DNS_SVCB_KEY_ODOHCONFIG, "odohconfig" },
{ DNS_SVCB_KEY_RESERVED, "key65535" },
{ 0, NULL }
};
static int * const dns_csync_flags[] = {
&hf_dns_csync_flags_immediate,
&hf_dns_csync_flags_soaminimum,
NULL
};
#define DNS_ZONEMD_SCHEME_SIMPLE 1
static const range_string dns_zonemd_scheme[] = {
{ 0, 0, "Reserved" },
{ DNS_ZONEMD_SCHEME_SIMPLE, DNS_ZONEMD_SCHEME_SIMPLE, "SIMPLE" },
{ 2, 239, "Unassigned" },
{ 240, 254, "Private Use" },
{ 255, 255, "Reserved" },
{ 0, 0, NULL } };
#define DNS_ZONEMD_HASH_SHA384 1
#define DNS_ZONEMD_HASH_SHA512 2
static const range_string dns_zonemd_hash_algo[] = {
{ 0, 0, "Reserved" },
{ DNS_ZONEMD_HASH_SHA384, DNS_ZONEMD_HASH_SHA384, "SHA-384" },
{ DNS_ZONEMD_HASH_SHA512, DNS_ZONEMD_HASH_SHA512, "SHA-512" },
{ 3, 239, "Unassigned" },
{ 240, 254, "Private Use" },
{ 255, 255, "Reserved" },
{ 0, 0, NULL } };
static const range_string dns_ext_err_info_code[] = {
{ 0, 0, "Other Error" },
{ 1, 1, "Unsupported DNSKEY Algorithm" },
{ 2, 2, "Unsupported DS Digest Type" },
{ 3, 3, "Stale Answer" },
{ 4, 4, "Forged Answer" },
{ 5, 5, "DNSSEC Indeterminate" },
{ 6, 6, "DNSSEC Bogus" },
{ 7, 7, "Signature Expired" },
{ 8, 8, "Signature Not Yet Valid" },
{ 9, 9, "DNSKEY Missing" },
{ 10, 10, "RRSIGs Missing" },
{ 11, 11, "No Zone Key Bit Set" },
{ 12, 12, "NSEC Missing" },
{ 13, 13, "Cached Error" },
{ 14, 14, "Not Ready" },
{ 15, 15, "Blocked" },
{ 16, 16, "Censored" },
{ 17, 17, "Filtered" },
{ 18, 18, "Prohibited" },
{ 19, 19, "Stale NXDomain Answer" },
{ 20, 20, "Not Authoritative" },
{ 21, 21, "Not Supported" },
{ 22, 22, "No Reachable Authority" },
{ 23, 23, "Network Error" },
{ 24, 24, "Invalid Data" },
{ 25, 25, "Signature Expired before Valid" },
{ 26, 26, "Too Early" },
{ 27, 27, "Unsupported NSEC3 Iterations Value" },
{ 28, 28, "Unable to conform to policy" },
{ 29, 29, "Synthesized" },
{ 30, 49151, "Unassigned" },
{ 49152, 65535, "Reserved for Private Use" },
{ 0, 0, NULL } };
/* This function counts how many '.' are in the string, plus 1, in order to count the number
* of labels
*/
static guint
qname_labels_count(const gchar* name, gint name_len)
{
guint labels = 0;
gint i;
if (name_len > 1) {
/* it was not a Zero-length name */
for (i = 0; i < name_len; i++) {
if (name[i] == '.')
labels++;
}
labels++;
}
return labels;
}
/* This function returns the number of bytes consumed and the expanded string
* in *name.
* The string is allocated with wmem_packet_scope scope and does not need to be freed.
* it will be automatically freed when the packet has been dissected.
*/
static int
expand_dns_name(tvbuff_t *tvb, int offset, int max_len, int dns_data_offset,
const gchar **name, gint* name_len)
{
int start_offset = offset;
gchar *np;
int len = -1;
int pointers_count = 0;
int component_len;
int indir_offset;
int maxname;
const int min_len = 1; /* Minimum length of encoded name (for root) */
/* If we're about to return a value (probably negative) which is less
* than the minimum length, we're looking at bad data and we're liable
* to put the dissector into a loop. Instead we throw an exception */
maxname = MAX_DNAME_LEN;
np=(gchar *)wmem_alloc(wmem_packet_scope(), maxname);
*name=np;
(*name_len) = 0;
for (;;) {
if (max_len && offset - start_offset > max_len - 1) {
break;
}
component_len = tvb_get_guint8(tvb, offset);
offset++;
if (component_len == 0) {
break;
}
switch (component_len & 0xc0) {
case 0x00:
/* Label */
if (np != *name) {
/* Not the first component - put in a '.'. */
if (maxname > 0) {
*np++ = '.';
(*name_len)++;
maxname--;
}
}
else {
maxname--;
}
while (component_len > 0) {
if (max_len && offset - start_offset > max_len - 1) {
THROW(ReportedBoundsError);
}
if (maxname > 0) {
*np++ = tvb_get_guint8(tvb, offset);
(*name_len)++;
maxname--;
}
component_len--;
offset++;
}
break;
case 0x40:
/* Extended label (RFC 2673) */
switch (component_len & 0x3f) {
case 0x01:
/* Bitstring label */
{
int bit_count;
int label_len;
int print_len;
bit_count = tvb_get_guint8(tvb, offset);
offset++;
label_len = (bit_count - 1) / 8 + 1;
if (maxname > 0) {
print_len = snprintf(np, maxname, "\\[x");
if (print_len <= maxname) {
np += print_len;
maxname -= print_len;
} else {
/* Nothing printed, as there's no room.
Suppress all subsequent printing. */
maxname = 0;
}
}
while (label_len--) {
if (maxname > 0) {
print_len = snprintf(np, maxname, "%02x",
tvb_get_guint8(tvb, offset));
if (print_len <= maxname) {
np += print_len;
maxname -= print_len;
} else {
/* Nothing printed, as there's no room.
Suppress all subsequent printing. */
maxname = 0;
}
}
offset++;
}
if (maxname > 0) {
print_len = snprintf(np, maxname, "/%d]", bit_count);
if (print_len <= maxname) {
np += print_len;
maxname -= print_len;
} else {
/* Nothing printed, as there's no room.
Suppress all subsequent printing. */
maxname = 0;
}
}
}
break;
default:
*name="<Unknown extended label>";
*name_len = (guint)strlen(*name);
/* Parsing will probably fail from here on, since the */
/* label length is unknown... */
len = offset - start_offset;
if (len < min_len) {
THROW(ReportedBoundsError);
}
return len;
}
break;
case 0x80:
THROW(ReportedBoundsError);
break;
case 0xc0:
/* Pointer. */
indir_offset = dns_data_offset +
(((component_len & ~0xc0) << 8) | tvb_get_guint8(tvb, offset));
offset++;
pointers_count++;
/* If "len" is negative, we are still working on the original name,
not something pointed to by a pointer, and so we should set "len"
to the length of the original name. */
if (len < 0) {
len = offset - start_offset;
}
/*
* If we find a pointer to itself, it is a trivial loop. Otherwise if we
* processed a large number of pointers, assume an indirect loop.
*/
if (indir_offset == offset + 2 || pointers_count > MAX_DNAME_LEN) {
*name="<Name contains a pointer that loops>";
*name_len = (guint)strlen(*name);
if (len < min_len) {
THROW(ReportedBoundsError);
}
return len;
}
offset = indir_offset;
break; /* now continue processing from there */
}
}
// Do we have space for the terminating 0?
if (maxname > 0) {
*np = '\0';
}
else {
*name="<Name too long>";
*name_len = (guint)strlen(*name);
}
/* If "len" is negative, we haven't seen a pointer, and thus haven't
set the length, so set it. */
if (len < 0) {
len = offset - start_offset;
}
return len;
}
/* return the bytes in the tvb consumed by the function. The converted string (that
can contain null bytes, is written in name and its length in name_len. */
int
get_dns_name(tvbuff_t *tvb, int offset, int max_len, int dns_data_offset,
const gchar **name, gint* name_len)
{
int len;
len = expand_dns_name(tvb, offset, max_len, dns_data_offset, name, name_len);
/* Zero-length name means "root server" */
if (**name == '\0' && len <= MIN_DNAME_LEN) {
*name="<Root>";
*name_len = (gint)strlen(*name);
return len;
}
if ((len < MIN_DNAME_LEN) || (len > MIN_DNAME_LEN && *name_len == 0)) {
THROW(ReportedBoundsError);
}
return len;
}
static int
get_dns_name_type_class(tvbuff_t *tvb, int offset, int dns_data_offset,
const gchar **name, int *name_len, guint16 *type, guint16 *dns_class)
{
int start_offset = offset;
offset += get_dns_name(tvb, offset, 0, dns_data_offset, name, name_len);
*type = tvb_get_ntohs(tvb, offset);
offset += 2;
*dns_class = tvb_get_ntohs(tvb, offset);
offset += 2;
return offset - start_offset;
}
static double
rfc1867_size(tvbuff_t *tvb, int offset)
{
guint8 val;
double size;
guint32 exponent;
val = tvb_get_guint8(tvb, offset);
size = (val & 0xF0) >> 4;
exponent = (val & 0x0F);
while (exponent != 0) {
size *= 10;
exponent--;
}
return size / 100; /* return size in meters, not cm */
}
static char *
rfc1867_angle(tvbuff_t *tvb, int offset, gboolean longitude)
{
guint32 angle;
char direction;
guint32 degrees, minutes, secs, tsecs;
/* "%u deg %u min %u.%03u sec %c" */
static char buf[10+1+3+1 + 2+1+3+1 + 2+1+3+1+3+1 + 1 + 1];
angle = tvb_get_ntohl(tvb, offset);
if (angle < 0x80000000U) {
angle = 0x80000000U - angle;
direction = longitude ? 'W' : 'S';
} else {
angle = angle - 0x80000000U;
direction = longitude ? 'E' : 'N';
}
if (longitude ? (angle > 648000000) : (angle > 324000000))
{
snprintf(buf, sizeof(buf), "Value out of range");
return buf;
}
tsecs = angle % 1000;
angle = angle / 1000;
secs = angle % 60;
angle = angle / 60;
minutes = angle % 60;
degrees = angle / 60;
snprintf(buf, sizeof(buf), "%u deg %u min %u.%03u sec %c", degrees, minutes, secs,
tsecs, direction);
return buf;
}
static int
dissect_dns_query(tvbuff_t *tvb, int offset, int dns_data_offset,
packet_info *pinfo, proto_tree *dns_tree, gboolean is_mdns,
gboolean *is_multiple_responds)
{
int used_bytes;
const gchar *name;
gchar *name_out;
int name_len;
guint16 type;
guint16 dns_class;
int qu;
const char *type_name;
int data_start;
guint16 labels;
proto_tree *q_tree;
proto_item *tq;
proto_item *ti;
data_start = offset;
used_bytes = get_dns_name_type_class(tvb, offset, dns_data_offset, &name, &name_len,
&type, &dns_class);
if (is_mdns) {
/* Split the QU flag and the class */
qu = dns_class & C_QU;
dns_class &= ~C_QU;
} else {
qu = 0;
}
if (type == T_AXFR || type == T_IXFR) {
*is_multiple_responds = TRUE;
}
type_name = val_to_str_ext(type, &dns_types_vals_ext, "Unknown (%u)");
/*
* The name might contain octets that aren't printable characters,
* format it for display.
*/
name_out = format_text(pinfo->pool, (const guchar *)name, name_len);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s %s", type_name, name_out);
if (is_mdns) {
col_append_fstr(pinfo->cinfo, COL_INFO, ", \"%s\" question", qu ? "QU" : "QM");
}
if (dns_tree != NULL) {
q_tree = proto_tree_add_subtree_format(dns_tree, tvb, offset, used_bytes, ett_dns_qd, &tq, "%s: type %s, class %s",
name_out, type_name, val_to_str_const(dns_class, dns_classes, "Unknown"));
if (is_mdns) {
proto_item_append_text(tq, ", \"%s\" question", qu ? "QU" : "QM");
}
/* The number of used bytes for qname is the total used bytes minus 2 bytes for qtype and 2 bytes for qclass */
proto_tree_add_string(q_tree, hf_dns_qry_name, tvb, offset, used_bytes - 4, name_out);
tq = proto_tree_add_uint(q_tree, hf_dns_qry_name_len, tvb, offset, used_bytes - 4, name_len > 1 ? name_len : 0);
proto_item_set_generated(tq);
labels = qname_labels_count(name, name_len);
tq = proto_tree_add_uint(q_tree, hf_dns_count_labels, tvb, offset, used_bytes - 4, labels);
proto_item_set_generated(tq);
offset += used_bytes - 4;
ti = proto_tree_add_item(q_tree, hf_dns_qry_type, tvb, offset, 2, ENC_BIG_ENDIAN);
proto_item_append_text(ti, " %s", val_to_str_ext(type, &dns_types_description_vals_ext, "Unknown (%d)"));
offset += 2;
if (is_mdns) {
proto_tree_add_uint(q_tree, hf_dns_qry_class_mdns, tvb, offset, 2, dns_class);
proto_tree_add_boolean(q_tree, hf_dns_qry_qu, tvb, offset, 2, qu);
} else {
proto_tree_add_uint(q_tree, hf_dns_qry_class, tvb, offset, 2, dns_class);
}
offset += 2;
}
if (data_start + used_bytes != offset) {
/* Add expert info ? (about incorrect len...)*/
}
return used_bytes;
}
static void
add_rr_to_tree(proto_tree *rr_tree, tvbuff_t *tvb, int offset,
const gchar *name, int namelen, int type,
packet_info *pinfo, gboolean is_mdns)
{
guint32 ttl_value;
proto_item *ttl_item;
gchar **srv_rr_info;
proto_item *ti;
if (type == T_SRV && name[0]) {
srv_rr_info = wmem_strsplit(pinfo->pool, name, ".", 4);
// If there are >=3 labels and the third label starts with an underscore,
// then likely a DNS-SD instance name is present [RFC 6763 sect 4.1], as in
// instance._service._proto.example.com
if (g_strv_length(srv_rr_info) >= 3 && srv_rr_info[2][0] == '_') {
proto_tree_add_string(rr_tree, hf_dns_srv_instance, tvb, offset, namelen, srv_rr_info[0]);
proto_tree_add_string(rr_tree, hf_dns_srv_service, tvb, offset, namelen, srv_rr_info[1]);
proto_tree_add_string(rr_tree, hf_dns_srv_proto, tvb, offset, namelen, srv_rr_info[2]);
if (srv_rr_info[3]) {
proto_tree_add_string(rr_tree, hf_dns_srv_name, tvb, offset, namelen, srv_rr_info[3]);
}
} else {
// Else this is a normal SRV record like _service._proto.example.com
proto_tree_add_string(rr_tree, hf_dns_srv_service, tvb, offset, namelen, srv_rr_info[0]);
if (srv_rr_info[1]) {
proto_tree_add_string(rr_tree, hf_dns_srv_proto, tvb, offset, namelen, srv_rr_info[1]);
if (srv_rr_info[2]) {
// If the name happens to only have 3 labels like "_service._proto.example",
// then we can just use srv_rr_info[2] as the name; but otherwise,
// the wmem_split above will turn "_service._proto.one.two.example.com"
// into ["_service", "_proto", "one", "two.example.com"]
// and we need to concatenate "one" + "." + "two.example.com" first
if (srv_rr_info[3]) {
const char* domain_name = wmem_strjoin(pinfo->pool, ".", srv_rr_info[2], srv_rr_info[3], NULL);
proto_tree_add_string(rr_tree, hf_dns_srv_name, tvb, offset, namelen, domain_name);
} else {
proto_tree_add_string(rr_tree, hf_dns_srv_name, tvb, offset, namelen, srv_rr_info[2]);
}
}
}
}
} else {
proto_tree_add_string(rr_tree, hf_dns_rr_name, tvb, offset, namelen, name);
}
offset += namelen;
ti = proto_tree_add_item(rr_tree, hf_dns_rr_type, tvb, offset, 2, ENC_BIG_ENDIAN);
proto_item_append_text(ti, " %s", val_to_str_ext(type, &dns_types_description_vals_ext, "Unknown (%d)"));
offset += 2;
if (is_mdns) {
proto_tree_add_item(rr_tree, hf_dns_rr_class_mdns, tvb, offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(rr_tree, hf_dns_rr_cache_flush, tvb, offset, 2, ENC_BIG_ENDIAN);
} else {
proto_tree_add_item(rr_tree, hf_dns_rr_class, tvb, offset, 2, ENC_BIG_ENDIAN);
}
offset += 2;
ttl_item = proto_tree_add_item_ret_uint(rr_tree, hf_dns_rr_ttl, tvb, offset, 4, ENC_BIG_ENDIAN, &ttl_value);
proto_item_append_text(ttl_item, " (%s)", unsigned_time_secs_to_str(pinfo->pool, ttl_value));
if (ttl_value & 0x80000000) {
expert_add_info(pinfo, ttl_item, &ei_ttl_high_bit_set);
}
offset += 4;
proto_tree_add_item(rr_tree, hf_dns_rr_len, tvb, offset, 2, ENC_BIG_ENDIAN);
}
static void
add_opt_rr_to_tree(proto_tree *rr_tree, tvbuff_t *tvb, int offset,
const char *name, int namelen, gboolean is_mdns)
{
proto_tree *Z_tree;
proto_item *Z_item;
proto_item *ti;
guint32 type;
proto_tree_add_string(rr_tree, hf_dns_rr_name, tvb, offset, namelen, name);
offset += namelen;
ti = proto_tree_add_item_ret_uint(rr_tree, hf_dns_rr_type, tvb, offset, 2, ENC_BIG_ENDIAN, &type);
proto_item_append_text(ti, " %s", val_to_str_ext(type, &dns_types_description_vals_ext, "Unknown (%d)"));
offset += 2;
if (is_mdns) {
proto_tree_add_item(rr_tree, hf_dns_rr_udp_payload_size_mdns, tvb, offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(rr_tree, hf_dns_rr_cache_flush, tvb, offset, 2, ENC_BIG_ENDIAN);
} else {
proto_tree_add_item(rr_tree, hf_dns_rr_udp_payload_size, tvb, offset, 2, ENC_BIG_ENDIAN);
}
offset += 2;
proto_tree_add_item(rr_tree, hf_dns_rr_ext_rcode, tvb, offset, 1, ENC_BIG_ENDIAN);
offset++;
proto_tree_add_item(rr_tree, hf_dns_rr_edns0_version, tvb, offset, 1, ENC_BIG_ENDIAN);
offset++;
Z_item = proto_tree_add_item(rr_tree, hf_dns_rr_z, tvb, offset, 2, ENC_BIG_ENDIAN);
Z_tree = proto_item_add_subtree(Z_item, ett_dns_rr);
proto_tree_add_item(Z_tree, hf_dns_rr_z_do, tvb, offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(Z_tree, hf_dns_rr_z_reserved, tvb, offset, 2, ENC_BIG_ENDIAN);
offset += 2;
proto_tree_add_item(rr_tree, hf_dns_rr_len, tvb, offset, 2, ENC_BIG_ENDIAN);
}
static int
dissect_type_bitmap(proto_tree *rr_tree, tvbuff_t *tvb, int cur_offset, int rr_len)
{
int mask, blockbase, blocksize;
int i, initial_offset, rr_type;
guint8 bits;
initial_offset = cur_offset;
while (rr_len != 0) {
blockbase = tvb_get_guint8(tvb, cur_offset);
blocksize = tvb_get_guint8(tvb, cur_offset + 1);
cur_offset += 2;
rr_len -= 2;
rr_type = blockbase * 256;
for( ; blocksize; blocksize-- ) {
bits = tvb_get_guint8(tvb, cur_offset);
mask = 1<<7;
for (i = 0; i < 8; i++) {
if (bits & mask) {
proto_tree_add_uint_format(rr_tree, hf_dns_rr_type, tvb, cur_offset, 1, rr_type,
"RR type in bit map: %s %s",
val_to_str_ext_const(rr_type, &dns_types_vals_ext, " "),
val_to_str_ext(rr_type, &dns_types_description_vals_ext, "Unknown (%d)")
);
}
mask >>= 1;
rr_type++;
}
cur_offset += 1;
rr_len -= 1;
}
}
return(initial_offset - cur_offset);
}
static int
dissect_type_bitmap_nxt(proto_tree *rr_tree, tvbuff_t *tvb, int cur_offset, int rr_len)
{
int mask;
int i, initial_offset, rr_type;
guint8 bits;
initial_offset = cur_offset;
rr_type = 0;
while (rr_len != 0) {
bits = tvb_get_guint8(tvb, cur_offset);
mask = 1<<7;
for (i = 0; i < 8; i++) {
if (bits & mask) {
proto_tree_add_uint_format(rr_tree, hf_dns_rr_type, tvb, cur_offset, 1, rr_type,
"RR type in bit map: %s %s",
val_to_str_ext_const(rr_type, &dns_types_vals_ext, " "),
val_to_str_ext(rr_type, &dns_types_description_vals_ext, "Unknown (%d)"));
}
mask >>= 1;
rr_type++;
}
cur_offset += 1;
rr_len -= 1;
}
return(initial_offset - cur_offset);
}
/*
* SIG, KEY, and CERT RR algorithms.
* http://www.iana.org/assignments/dns-sec-alg-numbers/dns-sec-alg-numbers.txt (last updated 2017-01-09)
*/
#define DNS_ALGO_RSAMD5 1 /* RSA/MD5 */
#define DNS_ALGO_DH 2 /* Diffie-Hellman */
#define DNS_ALGO_DSA 3 /* DSA */
#define DNS_ALGO_ECC 4 /* Elliptic curve crypto */
#define DNS_ALGO_RSASHA1 5 /* RSA/SHA1 */
#define DNS_ALGO_DSA_NSEC3_SHA1 6 /* DSA + NSEC3/SHA1 */
#define DNS_ALGO_RSASHA1_NSEC3_SHA1 7 /* RSA/SHA1 + NSEC3/SHA1 */
#define DNS_ALGO_RSASHA256 8 /* RSA/SHA-256 */
#define DNS_ALGO_RSASHA512 10 /* RSA/SHA-512 */
#define DNS_ALGO_ECCGOST 12 /* GOST R 34.10-2001 */
#define DNS_ALGO_ECDSAP256SHA256 13 /* ECDSA Curve P-256 with SHA-256 */
#define DNS_ALGO_ECDSAP386SHA386 14 /* ECDSA Curve P-386 with SHA-386 */
#define DNS_ALGO_ED25519 15 /* Ed25519 */
#define DNS_ALGO_ED448 16 /* Ed448 */
#define DNS_ALGO_HMACMD5 157 /* HMAC/MD5 */
#define DNS_ALGO_INDIRECT 252 /* Indirect key */
#define DNS_ALGO_PRIVATEDNS 253 /* Private, domain name */
#define DNS_ALGO_PRIVATEOID 254 /* Private, OID */
static const value_string dnssec_algo_vals[] = {
{ DNS_ALGO_RSAMD5, "RSA/MD5" },
{ DNS_ALGO_DH, "Diffie-Hellman" },
{ DNS_ALGO_DSA, "DSA" },
{ DNS_ALGO_ECC, "Elliptic curve crypto" },
{ DNS_ALGO_RSASHA1, "RSA/SHA1" },
{ DNS_ALGO_DSA_NSEC3_SHA1, "DSA + NSEC3/SHA1" },
{ DNS_ALGO_RSASHA1_NSEC3_SHA1,"RSA/SHA1 + NSEC3/SHA1" },
{ DNS_ALGO_RSASHA256, "RSA/SHA-256" },
{ DNS_ALGO_RSASHA512, "RSA/SHA-512" },
{ DNS_ALGO_ECCGOST, "GOST R 34.10-2001" },
{ DNS_ALGO_ECDSAP256SHA256, "ECDSA Curve P-256 with SHA-256" },
{ DNS_ALGO_ECDSAP386SHA386, "ECDSA Curve P-386 with SHA-386" },
{ DNS_ALGO_ED25519, "Ed25519" },
{ DNS_ALGO_ED448, "Ed448" },
{ DNS_ALGO_HMACMD5, "HMAC/MD5" },
{ DNS_ALGO_INDIRECT, "Indirect key" },
{ DNS_ALGO_PRIVATEDNS, "Private, domain name" },
{ DNS_ALGO_PRIVATEOID, "Private, OID" },
{ 0, NULL }
};
/*
Delegation Signer (DS) Resource Record (RR) Type Digest Algorithms
https://www.iana.org/assignments/ds-rr-types/ds-rr-types.txt (last-updated 2012-04-13)
*/
#define DS_DIGEST_RESERVED 0
#define DS_DIGEST_SHA1 1 /* MANDATORY [RFC3658] */
#define DS_DIGEST_SHA256 2 /* MANDATORY [RFC4509] */
#define DS_DIGEST_GOST 3 /* OPTIONAL [RFC5933] */
#define DS_DIGEST_SHA384 4 /*OPTIONAL [RFC6605] */
static const value_string dns_ds_digest_vals[] = {
{ DS_DIGEST_RESERVED, "Reserved digest" },
{ DS_DIGEST_SHA1, "SHA-1" },
{ DS_DIGEST_SHA256, "SHA-256" },
{ DS_DIGEST_GOST, "GOST R 34.11-94" },
{ DS_DIGEST_SHA384, "SHA-384" },
{ 0, NULL }
};
/* DNSKEY : RFC4034 */
#define DNSKEY_FLAGS_ZK 0x0100
#define DNSKEY_FLAGS_KR 0x0080
#define DNSKEY_FLAGS_SEP 0x0001
#define DNSKEY_FLAGS_RSV 0xFE7E
static const true_false_string dns_dnskey_zone_key_tfs = { "This is the zone key for specified zone", "This it not a zone key" };
/* See RFC 4398 */
#define DNS_CERT_PKIX 1 /* X509 certificate */
#define DNS_CERT_SPKI 2 /* Simple public key certificate */
#define DNS_CERT_PGP 3 /* OpenPGP packet */
#define DNS_CERT_IPKIX 4 /* Indirect PKIX */
#define DNS_CERT_ISPKI 5 /* Indirect SPKI */
#define DNS_CERT_IPGP 6 /* Indirect PGP */
#define DNS_CERT_ACPKIX 7 /* Attribute certificate */
#define DNS_CERT_IACPKIX 8 /* Indirect ACPKIX */
#define DNS_CERT_PRIVATEURI 253 /* Private, URI */
#define DNS_CERT_PRIVATEOID 254 /* Private, OID */
static const value_string dns_cert_type_vals[] = {
{ DNS_CERT_PKIX, "PKIX" },
{ DNS_CERT_SPKI, "SPKI" },
{ DNS_CERT_PGP, "PGP" },
{ DNS_CERT_IPKIX, "IPKIX" },
{ DNS_CERT_ISPKI, "ISPKI" },
{ DNS_CERT_IPGP, "IPGP" },
{ DNS_CERT_ACPKIX, "ACPKIX" },
{ DNS_CERT_IACPKIX, "IACPKIX" },
{ DNS_CERT_PRIVATEURI, "Private, URI" },
{ DNS_CERT_PRIVATEOID, "Private, OID" },
{ 0, NULL }
};
/**
* Compute the key id of a KEY RR depending of the algorithm used.
*/
static gboolean
compute_key_id(proto_tree *tree, packet_info *pinfo, tvbuff_t *tvb, int offset, int size, guint8 algo, guint16 *key_id)
{
guint32 ac;
guint8 c1, c2;
if (size < 4) {
proto_item *item;
*key_id = 0;
item = proto_tree_add_expert(tree, pinfo, &ei_dns_key_id_buffer_too_short, tvb, offset, size);
proto_item_set_generated(item);
return FALSE;
}
switch( algo ) {
case DNS_ALGO_RSAMD5:
*key_id = (guint16)(tvb_get_guint8(tvb, offset + size - 3) << 8) + tvb_get_guint8( tvb, offset + size - 2 );
break;
default:
for (ac = 0; size > 1; size -= 2, offset += 2) {
c1 = tvb_get_guint8( tvb, offset );
c2 = tvb_get_guint8( tvb, offset + 1 );
ac += (c1 << 8) + c2 ;
}
if (size > 0) {
c1 = tvb_get_guint8( tvb, offset );
ac += c1 << 8;
}
ac += (ac >> 16) & 0xffff;
*key_id = (guint16)(ac & 0xffff);
break;
}
return TRUE;
}
/* Dissect a SvbParam where the presentation format of the value is base64. */
static void
dissect_dns_svcparam_base64(proto_tree *param_tree, proto_item *param_item, int hf_id, tvbuff_t *tvb, int offset, guint length)
{
gchar *str = g_base64_encode((guint8 *)tvb_memdup(wmem_packet_scope(), tvb, offset, length), length);
proto_tree_add_bytes_format_value(param_tree, hf_id, tvb, offset, length, NULL, "%s", str);
proto_item_append_text(param_item, "=%s", str);
g_free(str);
}
static int
dissect_dns_answer(tvbuff_t *tvb, int offsetx, int dns_data_offset,
proto_tree *dns_tree, packet_info *pinfo,
gboolean is_mdns)
{
const gchar *name;
gchar *name_out;
int name_len;
guint16 dns_type;
guint16 dns_class;
int flush;
const char *class_name;
const char *type_name;
int data_offset;
int cur_offset;
int data_start;
gushort data_len;
proto_tree *rr_tree = NULL;
proto_item *trr = NULL;
guint used_bytes;
data_start = data_offset = offsetx;
cur_offset = offsetx;
used_bytes = get_dns_name_type_class(tvb, offsetx, dns_data_offset, &name, &name_len,
&dns_type, &dns_class);
/* The offset if the total used bytes minus 2 bytes for qtype and 2 bytes for qclass */
data_offset += used_bytes;
cur_offset += used_bytes;
if (is_mdns) {
/* Split the FLUSH flag and the class */
flush = dns_class & C_FLUSH;
dns_class &= ~C_FLUSH;
} else {
flush = 0;
}
type_name = val_to_str_ext(dns_type, &dns_types_vals_ext, "Unknown (%d)");
class_name = val_to_str_const(dns_class, dns_classes, "Unknown");
data_offset += 4;
cur_offset += 4;
data_len = tvb_get_ntohs(tvb, data_offset);
data_offset += 2;
cur_offset += 2;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", type_name);
if (is_mdns && flush) {
col_append_str(pinfo->cinfo, COL_INFO, ", cache flush");
}
/*
* The name might contain octets that aren't printable characters,
* format it for display.
*/
name_out = format_text(pinfo->pool, (const guchar*)name, name_len);
if (dns_type != T_OPT) {
rr_tree = proto_tree_add_subtree_format(dns_tree, tvb, offsetx,
(data_offset - data_start) + data_len,
ett_dns_rr, &trr, "%s: type %s, class %s",
name_out, type_name, class_name);
add_rr_to_tree(rr_tree, tvb, offsetx, name_out, used_bytes - 4,
dns_type, pinfo, is_mdns);
} else {
rr_tree = proto_tree_add_subtree_format(dns_tree, tvb, offsetx,
(data_offset - data_start) + data_len,
ett_dns_rr, &trr, "%s: type %s", name_out, type_name);
add_opt_rr_to_tree(rr_tree, tvb, offsetx, name_out, used_bytes - 4, is_mdns);
}
if (is_mdns && flush) {
proto_item_append_text(trr, ", cache flush");
}
if (data_len == 0) {
return data_offset - data_start;
}
switch (dns_type) {
case T_A: /* a host Address (1) */
{
switch (dns_class) {
/* RFC 1034 Section 3.6
* RDATA
* A For the IN class, a 32 bit IP address
*
* For the CH class, a domain name followed
* by a 16 bit octal Chaos address.
*/
case C_IN:
{
const char *addr;
addr = tvb_ip_to_str(pinfo->pool, tvb, cur_offset);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", addr);
proto_item_append_text(trr, ", addr %s", addr);
proto_tree_add_item(rr_tree, hf_dns_a, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
if (gbl_resolv_flags.dns_pkt_addr_resolution && dns_class == C_IN &&
!PINFO_FD_VISITED(pinfo)) {
guint32 addr_int;
tvb_memcpy(tvb, &addr_int, cur_offset, sizeof(addr_int));
add_ipv4_name(addr_int, name, FALSE);
}
}
break;
case C_CH:
{
const gchar *domain_name;
int domain_name_len;
guint32 ch_addr;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &domain_name, &domain_name_len);
name_out = format_text(pinfo->pool, (const guchar*)domain_name, domain_name_len);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_item_append_text(trr, ", domain/addr %s", name_out);
proto_tree_add_string(rr_tree, hf_dns_a_ch_domain, tvb, cur_offset, used_bytes, name_out);
proto_tree_add_item_ret_uint(rr_tree, hf_dns_a_ch_addr, tvb, cur_offset + used_bytes, 2, ENC_BIG_ENDIAN, &ch_addr);
col_append_fstr(pinfo->cinfo, COL_INFO, "/0%o", ch_addr);
proto_item_append_text(trr, "/0%o", ch_addr);
}
break;
default:
{
expert_add_info_format(pinfo, trr, &ei_dns_a_class_undecoded,
"A record dissection for class (%d)"
" code not implemented, Contact Wireshark developers"
" if you want this supported", dns_class);
proto_tree_add_item(rr_tree, hf_dns_data, tvb, cur_offset, data_len, ENC_NA);
}
break;
}
}
break;
case T_NS: /* an authoritative Name Server (2) */
{
const gchar *ns_name;
int ns_name_len;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &ns_name, &ns_name_len);
name_out = format_text(pinfo->pool, (const guchar*)ns_name, ns_name_len);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_item_append_text(trr, ", ns %s", name_out);
proto_tree_add_string(rr_tree, hf_dns_ns, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_MD: /* Mail Destination (3) */
{
int hostname_len;
const gchar *hostname_str;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &hostname_str, &hostname_len);
name_out = format_text(pinfo->pool, (const guchar*)hostname_str, hostname_len);
proto_tree_add_string(rr_tree, hf_dns_md, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_MF: /* Mail Forwader (4) */
{
int hostname_len;
const gchar *hostname_str;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &hostname_str, &hostname_len);
name_out = format_text(pinfo->pool, (const guchar*)hostname_str, hostname_len);
proto_tree_add_string(rr_tree, hf_dns_mf, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_CNAME: /* the Canonical NAME for an alias (5) */
{
const gchar *cname;
int cname_len;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &cname, &cname_len);
name_out = format_text(pinfo->pool, (const guchar*)cname, cname_len);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_item_append_text(trr, ", cname %s", name_out);
proto_tree_add_string(rr_tree, hf_dns_cname, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_SOA: /* Start Of Authority zone (6) */
{
const gchar *mname;
int mname_len;
const gchar *rname;
int rname_len;
proto_item *ti_soa;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &mname, &mname_len);
name_out = format_text(pinfo->pool, (const guchar*)mname, mname_len);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_item_append_text(trr, ", mname %s", name_out);
proto_tree_add_string(rr_tree, hf_dns_soa_mname, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &rname, &rname_len);
name_out = format_text(pinfo->pool, (const guchar*)rname, rname_len);
proto_tree_add_string(rr_tree, hf_dns_soa_rname, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
proto_tree_add_item(rr_tree, hf_dns_soa_serial_number, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
ti_soa = proto_tree_add_item(rr_tree, hf_dns_soa_refresh_interval, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
proto_item_append_text(ti_soa, " (%s)", unsigned_time_secs_to_str(pinfo->pool, tvb_get_ntohl(tvb, cur_offset)));
cur_offset += 4;
ti_soa = proto_tree_add_item(rr_tree, hf_dns_soa_retry_interval, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
proto_item_append_text(ti_soa, " (%s)", unsigned_time_secs_to_str(pinfo->pool, tvb_get_ntohl(tvb, cur_offset)));
cur_offset += 4;
ti_soa = proto_tree_add_item(rr_tree, hf_dns_soa_expire_limit, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
proto_item_append_text(ti_soa, " (%s)", unsigned_time_secs_to_str(pinfo->pool, tvb_get_ntohl(tvb, cur_offset)));
cur_offset += 4;
ti_soa = proto_tree_add_item(rr_tree, hf_dns_soa_minimum_ttl, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
proto_item_append_text(ti_soa, " (%s)", unsigned_time_secs_to_str(pinfo->pool, tvb_get_ntohl(tvb, cur_offset)));
}
break;
case T_MB: /* MailBox domain (7) */
{
int hostname_len;
const gchar *hostname_str;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &hostname_str, &hostname_len);
name_out = format_text(pinfo->pool, (const guchar*)hostname_str, hostname_len);
proto_tree_add_string(rr_tree, hf_dns_mb, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_MG: /* Mail Group member (8) */
{
int hostname_len;
const gchar *hostname_str;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &hostname_str, &hostname_len);
name_out = format_text(pinfo->pool, (const guchar*)hostname_str, hostname_len);
proto_tree_add_string(rr_tree, hf_dns_mg, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_MR: /* Mail Rename domain (9) */
{
int hostname_len;
const gchar *hostname_str;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &hostname_str, &hostname_len);
name_out = format_text(pinfo->pool, (const guchar*)hostname_str, hostname_len);
proto_tree_add_string(rr_tree, hf_dns_mr, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_NULL: /* Null (10) */
{
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_tree_add_item(rr_tree, hf_dns_null, tvb, cur_offset, data_len, ENC_NA);
}
break;
case T_WKS: /* Well Known Service (11) */
{
int rr_len = data_len;
const char *wks_addr;
guint8 protocol;
guint8 bits;
int mask;
int port_num;
int i;
proto_item *ti_wks;
wmem_strbuf_t *bitnames = wmem_strbuf_create(pinfo->pool);
wks_addr = tvb_ip_to_str(pinfo->pool, tvb, cur_offset);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", wks_addr);
proto_item_append_text(trr, ", addr %s", wks_addr);
proto_tree_add_item(rr_tree, hf_dns_wks_address, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
rr_len -= 4;
proto_tree_add_item(rr_tree, hf_dns_wks_protocol, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
protocol = tvb_get_guint8(tvb, cur_offset);
cur_offset += 1;
rr_len -= 1;
port_num = 0;
while (rr_len != 0) {
bits = tvb_get_guint8(tvb, cur_offset);
if (bits != 0) {
mask = 1<<7;
wmem_strbuf_truncate(bitnames, 0);
for (i = 0; i < 8; i++) {
if (bits & mask) {
if (wmem_strbuf_get_len(bitnames) > 0) {
wmem_strbuf_append(bitnames, ", ");
}
switch (protocol) {
case IP_PROTO_TCP:
wmem_strbuf_append(bitnames, tcp_port_to_display(pinfo->pool, port_num));
break;
case IP_PROTO_UDP:
wmem_strbuf_append(bitnames, udp_port_to_display(pinfo->pool, port_num));
break;
default:
wmem_strbuf_append_printf(bitnames, "%u", port_num);
break;
}
}
mask >>= 1;
port_num++;
}
ti_wks = proto_tree_add_item(rr_tree, hf_dns_wks_bits, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
proto_item_append_text(ti_wks, " (%s)", wmem_strbuf_get_str(bitnames));
} else {
port_num += 8;
}
cur_offset += 1;
rr_len -= 1;
}
}
break;
case T_PTR: /* Domain Name Pointer (12) */
{
const gchar *pname;
int pname_len;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &pname, &pname_len);
name_out = format_text(pinfo->pool, (const guchar*)pname, pname_len);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_item_append_text(trr, ", %s", name_out);
proto_tree_add_string(rr_tree, hf_dns_ptr_domain_name, tvb, cur_offset, used_bytes, name_out);
if (gbl_resolv_flags.dns_pkt_addr_resolution && (dns_class & 0x7f) == C_IN &&
!PINFO_FD_VISITED(pinfo)) {
guint32 addr_int;
char** name_tokens;
name_tokens = g_strsplit(name, ".", 33);
if (g_strv_length(name_tokens) == 6) {
if (g_ascii_strcasecmp(name_tokens[4], "in-addr") == 0 &&
g_ascii_strcasecmp(name_tokens[5], "arpa") == 0) {
char* addr_str = g_strjoin(".", name_tokens[3], name_tokens[2], name_tokens[1], name_tokens[0], NULL);
if (ws_inet_pton4(addr_str, &addr_int)) {
add_ipv4_name(addr_int, name_out, FALSE);
}
g_free(addr_str);
}
} else if (g_strv_length(name_tokens) == 33) {
if (g_ascii_strcasecmp(name_tokens[32], "ip6.arpa") == 0) {
ws_in6_addr address_ipv6;
wmem_strbuf_t *address_buf = wmem_strbuf_new_sized(pinfo->pool, 40);
for (size_t i = 31; i > 0; i--) {
wmem_strbuf_append(address_buf, name_tokens[i]);
if (i % 4 == 0) {
wmem_strbuf_append_c(address_buf, ':');
}
}
wmem_strbuf_append(address_buf, name_tokens[0]);
if (ws_inet_pton6(wmem_strbuf_get_str(address_buf), &address_ipv6)) {
add_ipv6_name(&address_ipv6, name_out, FALSE);
}
wmem_strbuf_destroy(address_buf);
}
}
g_strfreev(name_tokens);
}
}
break;
case T_HINFO: /* Host Information (13) */
{
int cpu_offset;
int cpu_len;
const char *cpu;
int os_offset;
int os_len;
const char *os;
cpu_offset = cur_offset;
cpu_len = tvb_get_guint8(tvb, cpu_offset);
cpu = (const char* )tvb_get_string_enc(pinfo->pool, tvb, cpu_offset + 1, cpu_len, ENC_ASCII|ENC_NA);
os_offset = cpu_offset + 1 + cpu_len;
os_len = tvb_get_guint8(tvb, os_offset);
os = (const char*)tvb_get_string_enc(pinfo->pool, tvb, os_offset + 1, os_len, ENC_ASCII|ENC_NA);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s %s", cpu, os);
proto_item_append_text(trr, ", CPU %s, OS %s", cpu, os);
proto_tree_add_item(rr_tree, hf_dns_hinfo_cpu_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
proto_tree_add_item(rr_tree, hf_dns_hinfo_cpu, tvb, cur_offset, cpu_len, ENC_ASCII);
cur_offset += cpu_len;
proto_tree_add_item(rr_tree, hf_dns_hinfo_os_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
proto_tree_add_item(rr_tree, hf_dns_hinfo_os, tvb, cur_offset, os_len, ENC_ASCII);
/* cur_offset += os_len;*/
}
break;
case T_MINFO: /* Mailbox or Mail list INFOrmation (14) */
{
int rmailbx_len, emailbx_len;
const gchar *rmailbx_str, *emailbx_str;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &rmailbx_str, &rmailbx_len);
name_out = format_text(pinfo->pool, (const guchar*)rmailbx_str, rmailbx_len);
proto_tree_add_string(rr_tree, hf_dns_minfo_r_mailbox, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &emailbx_str, &emailbx_len);
name_out = format_text(pinfo->pool, (const guchar*)emailbx_str, emailbx_len);
proto_tree_add_string(rr_tree, hf_dns_minfo_e_mailbox, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_MX: /* Mail eXchange (15) */
{
guint16 preference = 0;
const gchar *mx_name;
int mx_name_len;
preference = tvb_get_ntohs(tvb, cur_offset);
used_bytes = get_dns_name(tvb, cur_offset + 2, 0, dns_data_offset, &mx_name, &mx_name_len);
name_out = format_text(pinfo->pool, (const guchar*)mx_name, mx_name_len);
col_append_fstr(pinfo->cinfo, COL_INFO, " %u %s", preference, name_out);
proto_item_append_text(trr, ", preference %u, mx %s",
preference, name_out);
proto_tree_add_item(rr_tree, hf_dns_mx_preference, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_string(rr_tree, hf_dns_mx_mail_exchange, tvb, cur_offset, used_bytes, name_out);
/* cur_offset += used_bytes; */
}
break;
case T_TXT: /* TeXT strings (16) */
{
int rr_len = data_len;
int txt_offset;
int txt_len;
txt_offset = cur_offset;
while (rr_len != 0) {
txt_len = tvb_get_guint8(tvb, txt_offset);
proto_tree_add_item(rr_tree, hf_dns_txt_length, tvb, txt_offset, 1, ENC_BIG_ENDIAN);
txt_offset += 1;
rr_len -= 1;
proto_tree_add_item(rr_tree, hf_dns_txt, tvb, txt_offset, txt_len, is_mdns ? ENC_UTF_8|ENC_NA : ENC_ASCII|ENC_NA);
txt_offset += txt_len;
rr_len -= txt_len;
}
}
break;
case T_RP: /* Responsible Person (17) */
{
int mbox_dname_len, txt_dname_len;
const gchar *mbox_dname, *txt_dname;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &mbox_dname, &mbox_dname_len);
name_out = format_text(pinfo->pool, (const guchar*)mbox_dname, mbox_dname_len);
proto_tree_add_string(rr_tree, hf_dns_rp_mailbox, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &txt_dname, &txt_dname_len);
name_out = format_text(pinfo->pool, (const guchar*)txt_dname, txt_dname_len);
proto_tree_add_string(rr_tree, hf_dns_rp_txt_rr, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_AFSDB: /* AFS data base location (18) */
{
const gchar *host_name;
int host_name_len;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
used_bytes = get_dns_name(tvb, cur_offset + 2, 0, dns_data_offset, &host_name, &host_name_len);
name_out = format_text(pinfo->pool, (const guchar*)host_name, host_name_len);
proto_tree_add_item(rr_tree, hf_dns_afsdb_subtype, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_string(rr_tree, hf_dns_afsdb_hostname, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_X25: /* X.25 address (19) */
{
guint8 x25_len;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_tree_add_item(rr_tree, hf_dns_x25_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
x25_len = tvb_get_guint8(tvb, cur_offset);
cur_offset += 1;
proto_tree_add_item(rr_tree, hf_dns_x25_psdn_address, tvb, cur_offset, x25_len, ENC_ASCII);
/*cur_offset += x25_len;*/
}
break;
case T_ISDN: /* ISDN address (20) */
{
guint8 isdn_address_len, isdn_sa_len;
int rr_len = data_len;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_tree_add_item(rr_tree, hf_dns_isdn_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
isdn_address_len = tvb_get_guint8(tvb, cur_offset);
cur_offset += 1;
rr_len -= 1;
proto_tree_add_item(rr_tree, hf_dns_isdn_address, tvb, cur_offset, isdn_address_len, ENC_ASCII);
cur_offset += isdn_address_len;
rr_len -= isdn_address_len;
if (rr_len > 1) /* ISDN SA is optional */ {
proto_tree_add_item(rr_tree, hf_dns_isdn_sa_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
isdn_sa_len = tvb_get_guint8(tvb, cur_offset);
cur_offset += 1;
proto_tree_add_item(rr_tree, hf_dns_isdn_sa, tvb, cur_offset, isdn_sa_len, ENC_ASCII);
}
}
break;
case T_RT: /* Route-Through (21) */
{
const gchar *host_name;
int host_name_len;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
used_bytes = get_dns_name(tvb, cur_offset + 2, 0, dns_data_offset, &host_name, &host_name_len);
name_out = format_text(pinfo->pool, (const guchar*)host_name, host_name_len);
proto_tree_add_item(rr_tree, hf_dns_rt_preference, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_string(rr_tree, hf_dns_rt_intermediate_host, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_NSAP: /* for NSAP address, NSAP style A record (22) */
{
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_tree_add_item(rr_tree, hf_dns_nsap_rdata, tvb, cur_offset, data_len, ENC_NA);
}
break;
case T_NSAP_PTR: /* for domain name pointer, NSAP style (23) */
{
int nsap_ptr_owner_len;
const gchar *nsap_ptr_owner;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &nsap_ptr_owner, &nsap_ptr_owner_len);
name_out = format_text(pinfo->pool, (const guchar*)nsap_ptr_owner, nsap_ptr_owner_len);
proto_tree_add_string(rr_tree, hf_dns_nsap_ptr_owner, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_KEY: /* Public Key (25) */
{
int rr_len = data_len;
guint16 flags;
proto_item *tf, *ti_gen;
proto_tree *flags_tree;
guint8 algo;
guint16 key_id;
tf = proto_tree_add_item(rr_tree, hf_dns_key_flags, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
flags_tree = proto_item_add_subtree(tf, ett_key_flags);
flags = tvb_get_ntohs(tvb, cur_offset);
proto_tree_add_item(flags_tree, hf_dns_key_flags_authentication, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(flags_tree, hf_dns_key_flags_confidentiality, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
if ((flags & 0xC000) != 0xC000) {
/* We have a key */
proto_tree_add_item(flags_tree, hf_dns_key_flags_key_required, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(flags_tree, hf_dns_key_flags_associated_user, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(flags_tree, hf_dns_key_flags_associated_named_entity, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(flags_tree, hf_dns_key_flags_ipsec, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(flags_tree, hf_dns_key_flags_mime, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(flags_tree, hf_dns_key_flags_signatory, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
}
cur_offset += 2;
rr_len -= 2;
proto_tree_add_item(rr_tree, hf_dns_key_protocol, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
proto_tree_add_item(rr_tree, hf_dns_key_algorithm, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
algo = tvb_get_guint8(tvb, cur_offset);
cur_offset += 1;
rr_len -= 1;
if (compute_key_id(rr_tree, pinfo, tvb, cur_offset-4, rr_len+4, algo, &key_id)) {
ti_gen = proto_tree_add_uint(rr_tree, hf_dns_key_key_id, tvb, 0, 0, key_id);
proto_item_set_generated(ti_gen);
}
if (rr_len != 0) {
proto_tree_add_item(rr_tree, hf_dns_key_public_key, tvb, cur_offset, rr_len, ENC_NA);
}
}
break;
case T_PX: /* Pointer to X.400/RFC822 mapping info (26)*/
{
gint px_map822_len, px_mapx400_len;
const gchar *px_map822_dnsname, *px_mapx400_dnsname;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_tree_add_item(rr_tree, hf_dns_px_preference, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &px_map822_dnsname, &px_map822_len);
name_out = format_text(pinfo->pool, (const guchar*)px_map822_dnsname, px_map822_len);
proto_tree_add_string(rr_tree, hf_dns_px_map822, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &px_mapx400_dnsname, &px_mapx400_len);
name_out = format_text(pinfo->pool, (const guchar*)px_mapx400_dnsname, px_mapx400_len);
proto_tree_add_string(rr_tree, hf_dns_px_mapx400, tvb, cur_offset, used_bytes, name_out);
/*cur_offset += used_bytes;*/
}
break;
case T_GPOS: /* Geographical POSition (27) */
{
guint8 long_len, lat_len, alt_len;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_tree_add_item(rr_tree, hf_dns_gpos_longitude_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
long_len = tvb_get_guint8(tvb, cur_offset);
cur_offset += 1;
proto_tree_add_item(rr_tree, hf_dns_gpos_longitude, tvb, cur_offset, long_len, ENC_ASCII);
cur_offset += long_len;
proto_tree_add_item(rr_tree, hf_dns_gpos_latitude_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
lat_len = tvb_get_guint8(tvb, cur_offset);
cur_offset += 1;
proto_tree_add_item(rr_tree, hf_dns_gpos_latitude, tvb, cur_offset, lat_len, ENC_ASCII);
cur_offset += lat_len;
proto_tree_add_item(rr_tree, hf_dns_gpos_altitude_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
alt_len = tvb_get_guint8(tvb, cur_offset);
cur_offset += 1;
proto_tree_add_item(rr_tree, hf_dns_gpos_altitude, tvb, cur_offset, alt_len, ENC_ASCII);
/*cur_offset += alt_len;*/
}
break;
case T_AAAA: /* IPv6 Address (28) */
{
const char *addr6;
addr6 = tvb_ip6_to_str(pinfo->pool, tvb, cur_offset);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", addr6);
proto_item_append_text(trr, ", addr %s", addr6);
proto_tree_add_item(rr_tree, hf_dns_aaaa, tvb, cur_offset, 16, ENC_NA);
if (gbl_resolv_flags.dns_pkt_addr_resolution && (dns_class & 0x7f) == C_IN &&
!PINFO_FD_VISITED(pinfo)) {
ws_in6_addr addr_in6;
tvb_memcpy(tvb, &addr_in6, cur_offset, sizeof(addr_in6));
add_ipv6_name(&addr_in6, name, FALSE);
}
}
break;
case T_LOC: /* Geographical Location (29) */
{
guint8 version;
proto_item *ti;
version = tvb_get_guint8(tvb, cur_offset);
proto_tree_add_item(rr_tree, hf_dns_loc_version, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
if (version == 0) {
/* Version 0, the only version RFC 1876 discusses. */
cur_offset++;
ti = proto_tree_add_item(rr_tree, hf_dns_loc_size, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
proto_item_append_text(ti, " (%g m)", rfc1867_size(tvb, cur_offset));
cur_offset++;
ti = proto_tree_add_item(rr_tree, hf_dns_loc_horizontal_precision, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
proto_item_append_text(ti, " (%g m)", rfc1867_size(tvb, cur_offset));
cur_offset++;
ti = proto_tree_add_item(rr_tree, hf_dns_loc_vertical_precision, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
proto_item_append_text(ti, " (%g m)", rfc1867_size(tvb, cur_offset));
cur_offset++;
ti = proto_tree_add_item(rr_tree, hf_dns_loc_latitude, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
proto_item_append_text(ti, " (%s)", rfc1867_angle(tvb, cur_offset, FALSE));
cur_offset += 4;
ti = proto_tree_add_item(rr_tree, hf_dns_loc_longitude, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
proto_item_append_text(ti, " (%s)", rfc1867_angle(tvb, cur_offset, TRUE));
cur_offset += 4;
ti = proto_tree_add_item(rr_tree, hf_dns_loc_altitude, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
proto_item_append_text(ti, " (%g m)", (tvb_get_ntohil(tvb, cur_offset) - 10000000)/100.0);
} else {
proto_tree_add_item(rr_tree, hf_dns_loc_unknown_data, tvb, cur_offset, data_len, ENC_NA);
}
}
break;
case T_NXT: /* Next name (30) */
{
int rr_len = data_len;
const gchar *next_domain_name;
int next_domain_name_len;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset,
&next_domain_name, &next_domain_name_len);
name_out = format_text(pinfo->pool, (const guchar*)next_domain_name, next_domain_name_len);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_item_append_text(trr, ", next domain name %s", name_out);
proto_tree_add_string(rr_tree, hf_dns_nxt_next_domain_name, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
rr_len -= used_bytes;
dissect_type_bitmap_nxt(rr_tree, tvb, cur_offset, rr_len);
}
break;
case T_SRV: /* Service Location (33) */
{
guint16 priority = 0;
guint16 weight = 0;
guint16 port = 0;
const gchar *target;
int target_len;
proto_tree_add_item(rr_tree, hf_dns_srv_priority, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
priority = tvb_get_ntohs(tvb, cur_offset);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_srv_weight, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
weight = tvb_get_ntohs(tvb, cur_offset);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_srv_port, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
port = tvb_get_ntohs(tvb, cur_offset);
cur_offset += 2;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &target, &target_len);
name_out = format_text(pinfo->pool, (const guchar*)target, target_len);
proto_tree_add_string(rr_tree, hf_dns_srv_target, tvb, cur_offset, used_bytes, name_out);
col_append_fstr(pinfo->cinfo, COL_INFO, " %u %u %u %s", priority, weight, port, name_out);
proto_item_append_text(trr,
", priority %u, weight %u, port %u, target %s",
priority, weight, port, name_out);
}
break;
case T_NAPTR: /* Naming Authority PoinTeR (35) */
{
proto_item *ti_len;
int offset = cur_offset;
guint16 order;
guint16 preference;
const guint8 *flags;
guint8 flags_len;
guint8 service_len;
guint8 regex_len;
const gchar *replacement;
int replacement_len;
/* Order */
proto_tree_add_item(rr_tree, hf_dns_naptr_order, tvb, offset, 2, ENC_BIG_ENDIAN);
order = tvb_get_ntohs(tvb, offset);
offset += 2;
/* Preference */
proto_tree_add_item(rr_tree, hf_dns_naptr_preference, tvb, offset, 2, ENC_BIG_ENDIAN);
preference = tvb_get_ntohs(tvb, offset);
offset += 2;
/* Flags */
proto_tree_add_item(rr_tree, hf_dns_naptr_flags_length, tvb, offset, 1, ENC_BIG_ENDIAN);
flags_len = tvb_get_guint8(tvb, offset);
offset += 1;
proto_tree_add_item_ret_string(rr_tree, hf_dns_naptr_flags, tvb, offset, flags_len, ENC_ASCII|ENC_NA, pinfo->pool, &flags);
offset += flags_len;
/* Service */
proto_tree_add_item(rr_tree, hf_dns_naptr_service_length, tvb, offset, 1, ENC_BIG_ENDIAN);
service_len = tvb_get_guint8(tvb, offset);
offset += 1;
proto_tree_add_item(rr_tree, hf_dns_naptr_service, tvb, offset, service_len, ENC_ASCII);
offset += service_len;
/* Regex */
proto_tree_add_item(rr_tree, hf_dns_naptr_regex_length, tvb, offset, 1, ENC_BIG_ENDIAN);
regex_len = tvb_get_guint8(tvb, offset);
offset += 1;
proto_tree_add_item(rr_tree, hf_dns_naptr_regex, tvb, offset, regex_len, ENC_ASCII);
offset += regex_len;
/* Replacement */
used_bytes = get_dns_name(tvb, offset, 0, dns_data_offset, &replacement, &replacement_len);
name_out = format_text(pinfo->pool, (const guchar*)replacement, replacement_len);
ti_len = proto_tree_add_uint(rr_tree, hf_dns_naptr_replacement_length, tvb, offset, 0, replacement_len);
proto_item_set_generated(ti_len);
proto_tree_add_string(rr_tree, hf_dns_naptr_replacement, tvb, offset, used_bytes, name_out);
col_append_fstr(pinfo->cinfo, COL_INFO, " %u %u %s", order, preference, flags);
proto_item_append_text(trr, ", order %u, preference %u, flags %s",
order, preference, flags);
}
break;
case T_KX: /* Key Exchange (36) */
{
const gchar *kx_name;
int kx_name_len;
used_bytes = get_dns_name(tvb, cur_offset + 2, 0, dns_data_offset, &kx_name, &kx_name_len);
name_out = format_text(pinfo->pool, (const guchar*)kx_name, kx_name_len);
col_append_fstr(pinfo->cinfo, COL_INFO, " %u %s", tvb_get_ntohs(tvb, cur_offset), name_out);
proto_item_append_text(trr, ", preference %u, kx %s",
tvb_get_ntohs(tvb, cur_offset), name_out);
proto_tree_add_item(rr_tree, hf_dns_kx_preference, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_string(rr_tree, hf_dns_kx_key_exchange, tvb, cur_offset + 2, used_bytes, name_out);
}
break;
case T_CERT: /* Certificate (37) */
{
int rr_len = data_len;
proto_tree_add_item(rr_tree, hf_dns_cert_type, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
rr_len -= 2;
proto_tree_add_item(rr_tree, hf_dns_cert_key_tag, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
rr_len -= 2;
proto_tree_add_item(rr_tree, hf_dns_cert_algorithm, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
if (rr_len != 0) {
proto_tree_add_item(rr_tree, hf_dns_cert_certificate, tvb, cur_offset, rr_len, ENC_NA);
}
}
break;
case T_A6: /* IPv6 address with indirection (38) Obso */
{
unsigned short pre_len;
unsigned short suf_len;
unsigned short suf_octet_count;
const gchar *pname;
int pname_len;
int a6_offset;
int suf_offset;
ws_in6_addr suffix;
address suffix_addr;
a6_offset = cur_offset;
pre_len = tvb_get_guint8(tvb, cur_offset);
cur_offset++;
suf_len = 128 - pre_len;
suf_octet_count = suf_len ? (suf_len - 1) / 8 + 1 : 0;
/* Pad prefix */
for (suf_offset = 0; suf_offset < 16 - suf_octet_count; suf_offset++) {
suffix.bytes[suf_offset] = 0;
}
for (; suf_offset < 16; suf_offset++) {
suffix.bytes[suf_offset] = tvb_get_guint8(tvb, cur_offset);
cur_offset++;
}
if (pre_len > 0) {
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset,
&pname, &pname_len);
} else {
pname = "";
pname_len = 0;
}
name_out = format_text(pinfo->pool, (const guchar*)pname, pname_len);
set_address(&suffix_addr, AT_IPv6, 16, suffix.bytes);
col_append_fstr(pinfo->cinfo, COL_INFO, " %d %s %s",
pre_len,
address_to_str(pinfo->pool, &suffix_addr),
name_out);
proto_tree_add_item(rr_tree, hf_dns_a6_prefix_len,tvb, a6_offset, 1, ENC_BIG_ENDIAN);
a6_offset++;
if (suf_len) {
proto_tree_add_ipv6(rr_tree, hf_dns_a6_address_suffix,tvb, a6_offset, suf_octet_count, &suffix);
a6_offset += suf_octet_count;
}
if (pre_len > 0) {
proto_tree_add_string(rr_tree, hf_dns_a6_prefix_name, tvb, a6_offset, used_bytes, name_out);
}
proto_item_append_text(trr, ", addr %d %s %s",
pre_len,
address_to_str(pinfo->pool, &suffix_addr),
name_out);
}
break;
case T_DNAME: /* Non-terminal DNS name redirection (39) */
{
const gchar *dname;
int dname_len;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset,
&dname, &dname_len);
name_out = format_text(pinfo->pool, (const guchar*)dname, dname_len);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_item_append_text(trr, ", dname %s", name_out);
proto_tree_add_string(rr_tree, hf_dns_dname, tvb, cur_offset, used_bytes, name_out);
}
break;
case T_OPT: /* Option (41) */
{
int rropt_len = data_len;
guint16 optcode, optlen;
proto_item *rropt, *rroptlen;
proto_tree *rropt_tree;
while (rropt_len > 0) {
optcode = tvb_get_ntohs(tvb, cur_offset);
rropt_len -= 2;
optlen = tvb_get_ntohs(tvb, cur_offset + 2);
rropt_len -= 2;
rropt = proto_tree_add_item(rr_tree, hf_dns_opt, tvb, cur_offset, 4 + optlen, ENC_NA);
proto_item_append_text(rropt, ": %s", val_to_str(optcode, edns0_opt_code_vals, "Unknown (%d)"));
rropt_tree = proto_item_add_subtree(rropt, ett_dns_opts);
rropt = proto_tree_add_item(rropt_tree, hf_dns_opt_code, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
rroptlen = proto_tree_add_item(rropt_tree, hf_dns_opt_len, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_item(rropt_tree, hf_dns_opt_data, tvb, cur_offset, optlen, ENC_NA);
switch(optcode) {
case O_DAU: /* DNSSEC Algorithm Understood (RFC6975) */
{
while (optlen != 0) {
proto_tree_add_item(rropt_tree, hf_dns_opt_dau, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rropt_len -= 1;
optlen -= 1;
}
}
break;
case O_DHU: /* DS Hash Understood (RFC6975) */
{
while (optlen != 0) {
proto_tree_add_item(rropt_tree, hf_dns_opt_dhu, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rropt_len -= 1;
optlen -= 1;
}
}
break;
case O_N3U: /* N3SEC Hash Understood (RFC6975) */
{
while (optlen != 0) {
proto_tree_add_item(rropt_tree, hf_dns_opt_n3u, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rropt_len -= 1;
optlen -= 1;
}
}
break;
case O_CLIENT_SUBNET_EXP: /* draft-vandergaast-edns-client-subnet */
expert_add_info_format(pinfo, rropt, &ei_dns_depr_opc,
"Deprecated opcode. Client subnet OPT assigned as %d.", O_CLIENT_SUBNET);
/* Intentional fall-through */
case O_CLIENT_SUBNET:
{
guint16 family;
guint16 addr_len = optlen - 4;
union {
guint32 addr;
guint8 bytes[16];
} ip_addr = {0};
family = tvb_get_ntohs(tvb, cur_offset);
proto_tree_add_item(rropt_tree, hf_dns_opt_client_family, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_item(rropt_tree, hf_dns_opt_client_netmask, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
proto_tree_add_item(rropt_tree, hf_dns_opt_client_scope, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
if (addr_len > 16) {
expert_add_info(pinfo, rroptlen, &ei_dns_opt_bad_length);
/* Avoid stack-smashing which occurs otherwise with the
* following tvb_memcpy. */
addr_len = 16;
}
tvb_memcpy(tvb, ip_addr.bytes, cur_offset, addr_len);
switch (family) {
case AFNUM_INET:
{
proto_tree_add_ipv4(rropt_tree, hf_dns_opt_client_addr4, tvb,
cur_offset, addr_len, ip_addr.addr);
}
break;
case AFNUM_INET6:
{
proto_tree_add_ipv6(rropt_tree, hf_dns_opt_client_addr6, tvb,
cur_offset, addr_len, (ws_in6_addr *)&ip_addr);
}
break;
default:
{
proto_tree_add_item(rropt_tree, hf_dns_opt_client_addr, tvb, cur_offset, (optlen - 4),
ENC_NA);
}
break;
}
cur_offset += (optlen - 4);
rropt_len -= optlen;
}
break;
case O_COOKIE:
{
proto_tree_add_item(rropt_tree, hf_dns_opt_cookie_client, tvb, cur_offset, 8, ENC_NA);
cur_offset += 8;
rropt_len -= 8;
optlen -= 8;
proto_tree_add_item(rropt_tree, hf_dns_opt_cookie_server, tvb, cur_offset, optlen, ENC_NA);
cur_offset += optlen;
rropt_len -= optlen;
}
break;
case O_EDNS_TCP_KA:
{
if (optlen == 2) {
proto_tree_add_item(rropt_tree, hf_dns_opt_edns_tcp_keepalive_timeout, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
}
cur_offset += optlen;
rropt_len -= optlen;
}
break;
case O_PADDING:
{
proto_tree_add_item(rropt_tree, hf_dns_opt_padding, tvb, cur_offset, optlen, ENC_NA);
cur_offset += optlen;
rropt_len -= optlen;
}
break;
case O_CHAIN:
{
if (optlen) {
proto_tree_add_item(rropt_tree, hf_dns_opt_chain_fqdn, tvb, cur_offset, optlen, ENC_ASCII);
}
cur_offset += optlen;
rropt_len -= optlen;
}
break;
case O_EXT_ERROR:
{
if (optlen >= 2) {
proto_tree_add_item(rropt_tree, hf_dns_opt_ext_error_info_code, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
rropt_len -= 2;
if (optlen > 2) {
proto_tree_add_item(rropt_tree, hf_dns_opt_ext_error_extra_text, tvb, cur_offset, optlen - 2, ENC_UTF_8);
cur_offset += (optlen - 2);
rropt_len -= (optlen - 2);
}
}
}
break;
default:
{
cur_offset += optlen;
rropt_len -= optlen;
}
break;
}
}
}
break;
case T_APL: /* Lists of Address Prefixes (42) */
{
int rr_len = data_len;
guint16 afamily;
guint8 afdpart_len;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
while (rr_len > 1) {
afamily = tvb_get_ntohs(tvb, cur_offset);
proto_tree_add_item(rr_tree, hf_dns_apl_address_family, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
rr_len -= 2;
proto_tree_add_item(rr_tree, hf_dns_apl_coded_prefix, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
afdpart_len = tvb_get_guint8(tvb, cur_offset) & DNS_APL_AFDLENGTH;
proto_tree_add_item(rr_tree, hf_dns_apl_negation, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
proto_tree_add_item(rr_tree, hf_dns_apl_afdlength, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
if (afamily == AFNUM_INET && afdpart_len <= 4) {
ws_in4_addr *addr4_copy;
addr4_copy = (ws_in4_addr *)wmem_alloc0(pinfo->pool, 4);
tvb_memcpy(tvb, (void *)addr4_copy, cur_offset, afdpart_len);
proto_tree_add_ipv4(rr_tree, hf_dns_apl_afdpart_ipv4, tvb, cur_offset, afdpart_len, *addr4_copy);
} else if (afamily == AFNUM_INET6 && afdpart_len <= 16) {
ws_in6_addr *addr6_copy;
addr6_copy = (ws_in6_addr *)wmem_alloc0(pinfo->pool, 16);
tvb_memcpy(tvb, (void *)addr6_copy, cur_offset, afdpart_len);
proto_tree_add_ipv6(rr_tree, hf_dns_apl_afdpart_ipv6, tvb, cur_offset, afdpart_len, addr6_copy);
} else { /* Other... */
proto_tree_add_item(rr_tree, hf_dns_apl_afdpart_data, tvb, cur_offset, afdpart_len, ENC_NA);
}
cur_offset += afdpart_len;
rr_len -= afdpart_len;
}
}
break;
case T_DS: /* Delegation Signature (43) */
case T_CDS: /* Child DS (59) */
case T_DLV:
{
int rr_len = data_len;
proto_tree_add_item(rr_tree, hf_dns_ds_key_id, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
rr_len -= 2;
proto_tree_add_item(rr_tree, hf_dns_ds_algorithm, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
proto_tree_add_item(rr_tree, hf_dns_ds_digest_type, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
proto_tree_add_item(rr_tree, hf_dns_ds_digest, tvb, cur_offset, rr_len, ENC_NA);
}
break;
case T_SSHFP: /* Securely Publish SSH Key Fingerprints (44) */
{
int rr_len = data_len;
proto_tree_add_item(rr_tree, hf_dns_sshfp_algorithm, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
proto_tree_add_item(rr_tree, hf_dns_sshfp_fingerprint_type, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
if (rr_len != 0) {
proto_tree_add_item(rr_tree, hf_dns_sshfp_fingerprint, tvb, cur_offset, rr_len, ENC_NA);
}
}
break;
case T_IPSECKEY: /* IPsec Key (45) */
{
int rr_len = data_len;
guint8 gw_type;
const gchar *gw;
int gw_name_len;
proto_tree_add_item(rr_tree, hf_dns_ipseckey_gateway_precedence, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
proto_tree_add_item(rr_tree, hf_dns_ipseckey_gateway_type, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
gw_type = tvb_get_guint8(tvb, cur_offset);
cur_offset += 1;
rr_len -= 1;
proto_tree_add_item(rr_tree, hf_dns_ipseckey_gateway_algorithm, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
switch (gw_type) {
case 0:
{
/* No Gateway */
}
break;
case 1:
{
proto_tree_add_item(rr_tree, hf_dns_ipseckey_gateway_ipv4, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
rr_len -= 4;
}
break;
case 2:
{
proto_tree_add_item(rr_tree, hf_dns_ipseckey_gateway_ipv6, tvb, cur_offset, 16, ENC_NA);
cur_offset += 16;
rr_len -= 16;
}
break;
case 3:
{
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &gw, &gw_name_len);
name_out = format_text(pinfo->pool, (const guchar*)gw, gw_name_len);
proto_tree_add_string(rr_tree, hf_dns_ipseckey_gateway_dns, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
rr_len -= used_bytes;
}
break;
default:
break;
}
if (rr_len != 0) {
proto_tree_add_item(rr_tree, hf_dns_ipseckey_public_key, tvb, cur_offset, rr_len, ENC_NA);
}
}
break;
case T_RRSIG: /* RRSIG (46) */
case T_SIG: /* Security SIgnature (24) */
{
int rr_len = data_len;
const gchar *signer_name;
int signer_name_len;
proto_item *ti;
guint32 type;
ti = proto_tree_add_item_ret_uint(rr_tree, hf_dns_rrsig_type_covered, tvb, cur_offset, 2, ENC_BIG_ENDIAN, &type);
proto_item_append_text(ti, " %s", val_to_str_ext(type, &dns_types_description_vals_ext, "Unknown (%d)"));
cur_offset += 2;
rr_len -= 2;
proto_tree_add_item(rr_tree, hf_dns_rrsig_algorithm, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
proto_tree_add_item(rr_tree, hf_dns_rrsig_labels, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
ti = proto_tree_add_item(rr_tree, hf_dns_rrsig_original_ttl, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
proto_item_append_text(ti, " (%s)", unsigned_time_secs_to_str(pinfo->pool, tvb_get_ntohl(tvb, cur_offset)));
cur_offset += 4;
rr_len -= 4;
proto_tree_add_item(rr_tree, hf_dns_rrsig_signature_expiration, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
rr_len -= 4;
proto_tree_add_item(rr_tree, hf_dns_rrsig_signature_inception, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
rr_len -= 4;
proto_tree_add_item(rr_tree, hf_dns_rrsig_key_tag, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
rr_len -= 2;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &signer_name, &signer_name_len);
name_out = format_text(pinfo->pool, (const guchar*)signer_name, signer_name_len);
proto_tree_add_string(rr_tree, hf_dns_rrsig_signers_name, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
rr_len -= used_bytes;
if (rr_len != 0) {
proto_tree_add_item(rr_tree, hf_dns_rrsig_signature, tvb, cur_offset, rr_len, ENC_NA);
}
}
break;
case T_NSEC: /* NSEC (47) */
{
int rr_len = data_len;
const gchar *next_domain_name;
int next_domain_name_len;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset,
&next_domain_name, &next_domain_name_len);
name_out = format_text(pinfo->pool, (const guchar*)next_domain_name, next_domain_name_len);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_item_append_text(trr, ", next domain name %s", name_out);
proto_tree_add_string(rr_tree, hf_dns_nsec_next_domain_name, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
rr_len -= used_bytes;
dissect_type_bitmap(rr_tree, tvb, cur_offset, rr_len);
}
break;
case T_DNSKEY: /* DNSKEY (48) */
case T_CDNSKEY: /* CDNSKEY (60) */
{
int rr_len = data_len;
proto_item *tf, *ti_gen;
proto_tree *flags_tree;
guint16 key_id;
guint8 algo;
tf = proto_tree_add_item(rr_tree, hf_dns_dnskey_flags, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
flags_tree = proto_item_add_subtree(tf, ett_key_flags);
proto_tree_add_item(flags_tree, hf_dns_dnskey_flags_zone_key, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(flags_tree, hf_dns_dnskey_flags_key_revoked, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(flags_tree, hf_dns_dnskey_flags_secure_entry_point, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(flags_tree, hf_dns_dnskey_flags_reserved, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
rr_len -= 2;
/* Must have value 3, Add check ? */
proto_tree_add_item(rr_tree, hf_dns_dnskey_protocol, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
proto_tree_add_item(rr_tree, hf_dns_dnskey_algorithm, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
algo = tvb_get_guint8(tvb, cur_offset);
cur_offset += 1;
rr_len -= 1;
if (compute_key_id(rr_tree, pinfo, tvb, cur_offset-4, rr_len+4, algo, &key_id)) {
ti_gen = proto_tree_add_uint(rr_tree, hf_dns_dnskey_key_id, tvb, 0, 0, key_id);
proto_item_set_generated(ti_gen);
}
proto_tree_add_item(rr_tree, hf_dns_dnskey_public_key, tvb, cur_offset, rr_len, ENC_NA);
}
break;
case T_DHCID: /* DHCID (49) */
{
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_tree_add_item(rr_tree, hf_dns_dhcid_rdata, tvb, cur_offset, data_len, ENC_NA);
}
break;
case T_NSEC3: /* NSEC3 (50) */
{
int rr_len, initial_offset = cur_offset;
guint8 salt_len, hash_len;
proto_item *flags_item, *hash_item;
proto_tree *flags_tree;
proto_tree_add_item(rr_tree, hf_dns_nsec3_algo, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
flags_item = proto_tree_add_item(rr_tree, hf_dns_nsec3_flags, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
flags_tree = proto_item_add_subtree(flags_item, ett_nsec3_flags);
proto_tree_add_item(flags_tree, hf_dns_nsec3_flag_optout, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
proto_tree_add_item(rr_tree, hf_dns_nsec3_iterations, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_nsec3_salt_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
salt_len = tvb_get_guint8(tvb, cur_offset);
cur_offset += 1;
proto_tree_add_item(rr_tree, hf_dns_nsec3_salt_value, tvb, cur_offset, salt_len, ENC_NA);
cur_offset += salt_len;
proto_tree_add_item(rr_tree, hf_dns_nsec3_hash_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
hash_len = tvb_get_guint8(tvb, cur_offset);
cur_offset += 1;
/*
* The code below is optimized for simplicity as trailing padding
* characters ("=") are not used in the NSEC3 specification (see RFC 5155
* section 1.3).
*/
if (hash_len) {
/* Base 32 Encoding with Extended Hex Alphabet (see RFC 4648 section 7) */
const char *base32hex = "0123456789abcdefghijklmnopqrstuv";
wmem_strbuf_t *hash_value_base32hex = wmem_strbuf_new(pinfo->pool, "");
int group, in_offset, out_offset;
for (in_offset = 0, out_offset = 0;
in_offset / 8 < hash_len;
in_offset += 5, out_offset += 1) {
group = tvb_get_bits8(tvb, cur_offset * 8 + in_offset, 5);
wmem_strbuf_append_c(hash_value_base32hex, base32hex[group]);
}
hash_item = proto_tree_add_string(rr_tree, hf_dns_nsec3_hash_value, tvb, cur_offset, hash_len, wmem_strbuf_finalize(hash_value_base32hex));
proto_item_set_generated(hash_item);
cur_offset += hash_len;
}
rr_len = data_len - (cur_offset - initial_offset);
dissect_type_bitmap(rr_tree, tvb, cur_offset, rr_len);
}
break;
case T_NSEC3PARAM: /* NSEC3PARAM (51) */
{
int salt_len;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_tree_add_item(rr_tree, hf_dns_nsec3_algo, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset +=1;
proto_tree_add_item(rr_tree, hf_dns_nsec3_flags, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset +=1;
proto_tree_add_item(rr_tree, hf_dns_nsec3_iterations, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_nsec3_salt_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
salt_len = tvb_get_guint8(tvb, cur_offset);
cur_offset +=1;
proto_tree_add_item(rr_tree, hf_dns_nsec3_salt_value, tvb, cur_offset, salt_len, ENC_NA);
}
break;
case T_TLSA: /* DNS-Based Authentication of Named Entities (52) */
{
int rr_len = data_len;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_tree_add_item(rr_tree, hf_dns_tlsa_certificate_usage, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset ++;
rr_len --;
proto_tree_add_item(rr_tree, hf_dns_tlsa_selector, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset ++;
rr_len --;
proto_tree_add_item(rr_tree, hf_dns_tlsa_matching_type, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset ++;
rr_len --;
proto_tree_add_item(rr_tree, hf_dns_tlsa_certificate_association_data, tvb, cur_offset, rr_len, ENC_NA);
}
break;
case T_HIP: /* Host Identity Protocol (55) */
{
guint8 hit_len;
guint16 pk_len;
int rr_len = data_len;
int rendezvous_len;
const gchar *rend_server_dns_name;
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
hit_len = tvb_get_guint8(tvb, cur_offset);
proto_tree_add_item(rr_tree, hf_dns_hip_hit_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
proto_tree_add_item(rr_tree, hf_dns_hip_pk_algo, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset += 1;
rr_len -= 1;
pk_len = tvb_get_ntohs(tvb, cur_offset);
proto_tree_add_item(rr_tree, hf_dns_hip_pk_length, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
rr_len -= 2;
proto_tree_add_item(rr_tree, hf_dns_hip_hit, tvb, cur_offset, hit_len, ENC_NA);
cur_offset += hit_len;
rr_len -= hit_len;
proto_tree_add_item(rr_tree, hf_dns_hip_pk, tvb, cur_offset, pk_len, ENC_NA);
cur_offset += pk_len;
rr_len -= pk_len;
while (rr_len > 1) {
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &rend_server_dns_name, &rendezvous_len);
name_out = format_text(pinfo->pool, (const guchar*)rend_server_dns_name, rendezvous_len);
proto_tree_add_string(rr_tree, hf_dns_hip_rendezvous_server, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
rr_len -= used_bytes;
}
}
break;
case T_OPENPGPKEY: /* OpenPGP Key (61) */
{
proto_tree_add_item(rr_tree, hf_dns_openpgpkey, tvb, cur_offset, data_len, ENC_ASCII);
}
break;
case T_CSYNC: /* Child-to-Parent Synchronization (62) */
{
int rr_len, initial_offset = cur_offset;
proto_tree_add_item(rr_tree, hf_dns_csync_soa, tvb, cur_offset, 4, ENC_ASCII|ENC_NA);
cur_offset += 4;
proto_tree_add_bitmask_with_flags(rr_tree, tvb, cur_offset,
hf_dns_csync_flags, ett_dns_csdync_flags, dns_csync_flags, ENC_BIG_ENDIAN, BMT_NO_APPEND);
cur_offset += 2;
rr_len = data_len - (cur_offset - initial_offset);
proto_tree_add_item(rr_tree, hf_dns_csync_type_bitmap, tvb, cur_offset, rr_len, ENC_NA);
dissect_type_bitmap(rr_tree, tvb, cur_offset, rr_len);
}
break;
case T_ZONEMD: /* Message Digest for DNS Zones (63) */
{
proto_tree_add_item(rr_tree, hf_dns_zonemd_serial, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
proto_tree_add_item(rr_tree, hf_dns_zonemd_scheme, tvb, cur_offset, 1, ENC_NA);
cur_offset += 1;
proto_tree_add_item(rr_tree, hf_dns_zonemd_hash_algo, tvb, cur_offset, 1, ENC_NA);
cur_offset += 1;
proto_tree_add_item(rr_tree, hf_dns_zonemd_digest, tvb, cur_offset, data_len - 6 , ENC_NA);
}
break;
case T_SVCB: /* Service binding and parameter specification (64) */
case T_HTTPS: /* Service binding and parameter specification (65) */
{
guint32 priority = 0, value;
guint32 svc_param_key;
guint32 svc_param_offset;
guint32 svc_param_length;
guint32 svc_param_alpn_length;
const gchar *target;
int target_len;
const guint8 *dohpath;
int start_offset = cur_offset;
proto_item *svcb_param_ti;
proto_tree *svcb_param_tree;
proto_tree_add_item_ret_uint(rr_tree, hf_dns_svcb_priority, tvb, cur_offset, 2, ENC_BIG_ENDIAN, &priority);
cur_offset += 2;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &target, &target_len);
name_out = format_text(pinfo->pool, (const guchar*)target, target_len);
proto_tree_add_string(rr_tree, hf_dns_svcb_target, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
if (data_len > cur_offset - start_offset) {
while (data_len > cur_offset - start_offset) {
svcb_param_ti = proto_tree_add_item(rr_tree, hf_dns_svcb_param, tvb, cur_offset, -1, ENC_NA);
svcb_param_tree = proto_item_add_subtree(svcb_param_ti, ett_dns_svcb);
proto_tree_add_item_ret_uint(svcb_param_tree, hf_dns_svcb_param_key, tvb, cur_offset, 2, ENC_BIG_ENDIAN, &svc_param_key);
cur_offset += 2;
proto_tree_add_item_ret_uint(svcb_param_tree, hf_dns_svcb_param_length, tvb, cur_offset, 2, ENC_BIG_ENDIAN, &svc_param_length);
cur_offset += 2;
proto_item_append_text(svcb_param_ti, ": %s", val_to_str(svc_param_key, dns_svcb_param_key_vals, "key%u"));
proto_item_set_len(svcb_param_ti, svc_param_length + 4);
switch(svc_param_key) {
case DNS_SVCB_KEY_MANDATORY:
for (svc_param_offset = 0; svc_param_offset < svc_param_length; svc_param_offset += 2) {
guint32 key;
proto_tree_add_item_ret_uint(svcb_param_tree, hf_dns_svcb_param_mandatory_key, tvb, cur_offset, 2, ENC_BIG_ENDIAN, &key);
proto_item_append_text(svcb_param_ti, "%c%s", (svc_param_offset == 0 ? '=' : ','), val_to_str(key, dns_svcb_param_key_vals, "key%u"));
cur_offset += 2;
}
break;
case DNS_SVCB_KEY_ALPN:
for (svc_param_offset = 0; svc_param_offset < svc_param_length; ) {
const guint8 *alpn;
proto_tree_add_item_ret_uint(svcb_param_tree, hf_dns_svcb_param_alpn_length, tvb, cur_offset, 1, ENC_BIG_ENDIAN, &svc_param_alpn_length);
cur_offset += 1;
proto_tree_add_item_ret_string(svcb_param_tree, hf_dns_svcb_param_alpn, tvb, cur_offset, svc_param_alpn_length, ENC_ASCII|ENC_NA, pinfo->pool, &alpn);
cur_offset += svc_param_alpn_length;
proto_item_append_text(svcb_param_ti, "%c%s", (svc_param_offset == 0 ? '=' : ','), alpn);
svc_param_offset += 1 + svc_param_alpn_length;
}
break;
case DNS_SVCB_KEY_NOALPN:
break;
case DNS_SVCB_KEY_PORT:
proto_tree_add_item_ret_uint(svcb_param_tree, hf_dns_svcb_param_port, tvb, cur_offset, 2, ENC_BIG_ENDIAN, &value);
proto_item_append_text(svcb_param_ti, "=%u", value);
cur_offset += 2;
break;
case DNS_SVCB_KEY_IPV4HINT:
for (svc_param_offset = 0; svc_param_offset < svc_param_length; svc_param_offset += 4) {
proto_tree_add_item(svcb_param_tree, hf_dns_svcb_param_ipv4hint_ip, tvb, cur_offset, 4, ENC_NA);
proto_item_append_text(svcb_param_ti, "%c%s", (svc_param_offset == 0 ? '=' : ','), tvb_ip_to_str(pinfo->pool, tvb, cur_offset));
cur_offset += 4;
}
break;
case DNS_SVCB_KEY_ECH:
{
tvbuff_t *next_tvb = tvb_new_subset_length(tvb, cur_offset, svc_param_length);
cur_offset += call_dissector(tls_echconfig_handle, next_tvb, pinfo, svcb_param_tree);
break;
}
case DNS_SVCB_KEY_IPV6HINT:
for (svc_param_offset = 0; svc_param_offset < svc_param_length; svc_param_offset += 16) {
proto_tree_add_item(svcb_param_tree, hf_dns_svcb_param_ipv6hint_ip, tvb, cur_offset, 16, ENC_NA);
proto_item_append_text(svcb_param_ti, "%c%s", (svc_param_offset == 0 ? '=' : ','), tvb_ip6_to_str(pinfo->pool, tvb, cur_offset));
cur_offset += 16;
}
break;
case DNS_SVCB_KEY_DOHPATH:
proto_tree_add_item_ret_string(svcb_param_tree, hf_dns_svcb_param_dohpath, tvb, cur_offset, svc_param_length, ENC_UTF_8|ENC_NA, pinfo->pool, &dohpath);
cur_offset += svc_param_length;
proto_item_append_text(svcb_param_ti, "=%s", dohpath);
break;
case DNS_SVCB_KEY_ODOHCONFIG:
dissect_dns_svcparam_base64(svcb_param_tree, svcb_param_ti, hf_dns_svcb_param_odohconfig, tvb, cur_offset, svc_param_length);
cur_offset += svc_param_length;
break;
default:
if (svc_param_length > 0) {
proto_tree_add_item(svcb_param_tree, hf_dns_svcb_param_value, tvb, cur_offset, svc_param_length, ENC_NA);
proto_item_append_text(svcb_param_ti, "=%s", tvb_format_text(pinfo->pool, tvb, cur_offset, svc_param_length));
cur_offset += svc_param_length;
}
break;
}
}
}
}
break;
case T_SPF: /* Sender Policy Framework (99) */
{
int rr_len = data_len;
int spf_offset;
int spf_len;
spf_offset = cur_offset;
while (rr_len != 0) {
spf_len = tvb_get_guint8(tvb, spf_offset);
proto_tree_add_item(rr_tree, hf_dns_spf_length, tvb, spf_offset, 1, ENC_BIG_ENDIAN);
spf_offset += 1;
rr_len -= 1;
proto_tree_add_item(rr_tree, hf_dns_spf, tvb, spf_offset, spf_len, ENC_ASCII);
spf_offset += spf_len;
rr_len -= spf_len;
}
}
break;
case T_NID: /* NodeID (104) */
{
proto_tree_add_item(rr_tree, hf_dns_ilnp_nodeid_preference, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_ilnp_nodeid, tvb, cur_offset, 8, ENC_NA);
/*cur_offset += 8;*/
}
break;
case T_L32: /* Locator (105) */
{
proto_tree_add_item(rr_tree, hf_dns_ilnp_locator32_preference, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_ilnp_locator32, tvb, cur_offset, 4, ENC_NA);
/*cur_offset += 4;*/
}
break;
case T_L64: /* Locator64 (106) */
{
proto_tree_add_item(rr_tree, hf_dns_ilnp_locator64_preference, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_ilnp_locator64, tvb, cur_offset, 8, ENC_NA);
/*cur_offset += 8;*/
}
break;
case T_LP: /* Locator FQDN (107) */
{
int lp_len;
const gchar *lp_str;
proto_tree_add_item(rr_tree, hf_dns_ilnp_locatorfqdn_preference, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &lp_str, &lp_len);
name_out = format_text(pinfo->pool, (const guchar*)lp_str, lp_len);
proto_tree_add_string(rr_tree, hf_dns_ilnp_locatorfqdn, tvb, cur_offset, used_bytes, name_out);
/*cur_offset += used_bytes;*/
}
break;
case T_EUI48: /* EUI48 (108) */
{
proto_tree_add_item(rr_tree, hf_dns_eui48, tvb, cur_offset, 6, ENC_NA);
/*cur_offset += 6;*/
}
break;
case T_EUI64: /* EUI64 (109) */
{
proto_tree_add_item(rr_tree, hf_dns_eui64, tvb, cur_offset, 8, ENC_NA);
/*cur_offset += 8;*/
}
break;
case T_TKEY: /* Transaction Key (249) */
{
const gchar *tkey_algname;
int tkey_algname_len;
guint16 tkey_mode, tkey_keylen, tkey_otherlen;
proto_tree *key_tree;
proto_item *key_item;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &tkey_algname, &tkey_algname_len);
name_out = format_text(pinfo->pool, (const guchar*)tkey_algname, tkey_algname_len);
proto_tree_add_string(rr_tree, hf_dns_tkey_algo_name, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
proto_tree_add_item(rr_tree, hf_dns_tkey_signature_inception, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
proto_tree_add_item(rr_tree, hf_dns_tkey_signature_expiration, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
proto_tree_add_item(rr_tree, hf_dns_tkey_mode, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
tkey_mode = tvb_get_ntohs(tvb, cur_offset);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_tkey_error, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_tkey_key_size, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
tkey_keylen = tvb_get_ntohs(tvb, cur_offset);
cur_offset += 2;
if (tkey_keylen != 0) {
key_item = proto_tree_add_item(rr_tree, hf_dns_tkey_key_data, tvb, cur_offset, tkey_keylen, ENC_NA);
key_tree = proto_item_add_subtree(key_item, ett_t_key);
switch(tkey_mode) {
case TKEYMODE_GSSAPI:
{
tvbuff_t *gssapi_tvb;
/*
* XXX - in at least one capture, this appears to
* be an NTLMSSP blob, with no ASN.1 in it, in
* a query.
*
* See RFC 3645 which might indicate what's going
* on here. (The key is an output_token from
* GSS_Init_sec_context.)
*
* How the heck do we know what method is being
* used, so we know how to decode the key? Do we
* have to look at the algorithm name, e.g.
* "gss.microsoft.com"? We currently do as the
* the SMB dissector does in some cases, and check
* whether the security blob begins with "NTLMSSP".
*/
gssapi_tvb = tvb_new_subset_length(tvb, cur_offset, tkey_keylen);
if (tvb_strneql(gssapi_tvb, 0, "NTLMSSP", 7) == 0) {
call_dissector(ntlmssp_handle, gssapi_tvb, pinfo, key_tree);
} else {
call_dissector(gssapi_handle, gssapi_tvb, pinfo, key_tree);
}
}
break;
default:
/* No dissector for this key mode */
break;
}
cur_offset += tkey_keylen;
}
proto_tree_add_item(rr_tree, hf_dns_tkey_other_size, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
tkey_otherlen = tvb_get_ntohs(tvb, cur_offset);
cur_offset += 2;
if (tkey_otherlen != 0) {
proto_tree_add_item(rr_tree, hf_dns_tkey_other_data, tvb, cur_offset, tkey_otherlen, ENC_NA);
}
}
break;
case T_TSIG: /* Transaction Signature (250) */
{
guint16 tsig_siglen, tsig_otherlen;
const gchar *tsig_algname;
int tsig_algname_len;
proto_item *ti;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &tsig_algname, &tsig_algname_len);
name_out = format_text(pinfo->pool, (const guchar*)tsig_algname, tsig_algname_len);
proto_tree_add_string(rr_tree, hf_dns_tsig_algorithm_name, tvb, cur_offset, used_bytes, name_out);
cur_offset += used_bytes;
ti = proto_tree_add_item(rr_tree, hf_dns_tsig_time_signed ,tvb, cur_offset, 6, ENC_TIME_SECS|ENC_BIG_ENDIAN);
if(tvb_get_ntohs(tvb, cur_offset)) /* Time High */
{
proto_item_append_text(ti, " (high bits set)");
}
cur_offset += 6;
proto_tree_add_item(rr_tree, hf_dns_tsig_fudge, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
tsig_siglen = tvb_get_ntohs(tvb, cur_offset);
proto_tree_add_item(rr_tree, hf_dns_tsig_mac_size, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
if (tsig_siglen != 0) {
proto_item *mac_item;
proto_tree *mac_tree;
tvbuff_t *sub_tvb;
mac_item = proto_tree_add_item(rr_tree, hf_dns_tsig_mac, tvb, cur_offset, tsig_siglen, ENC_NA);
mac_tree = proto_item_add_subtree(mac_item, ett_dns_mac);
sub_tvb=tvb_new_subset_length(tvb, cur_offset, tsig_siglen);
if (!dissector_try_string(dns_tsig_dissector_table, tsig_algname, sub_tvb, pinfo, mac_tree, NULL)) {
expert_add_info_format(pinfo, mac_item, &ei_dns_tsig_alg,
"No dissector for algorithm:%s", name_out);
}
cur_offset += tsig_siglen;
}
proto_tree_add_item(rr_tree, hf_dns_tsig_original_id, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_tsig_error, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_tsig_other_len, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
tsig_otherlen = tvb_get_ntohs(tvb, cur_offset);
cur_offset += 2;
if (tsig_otherlen != 0) {
proto_tree_add_item(rr_tree, hf_dns_tsig_other_data, tvb, cur_offset, tsig_otherlen, ENC_NA);
}
}
break;
case T_URI: /* Uniform Resource Locator (256) */
{
int rr_len = data_len;
guint16 priority = 0;
guint16 weight = 0;
int target_len = rr_len - 4;
const gchar *target;
proto_tree_add_item(rr_tree, hf_dns_srv_priority, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
priority = tvb_get_ntohs(tvb, cur_offset);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_srv_weight, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
weight = tvb_get_ntohs(tvb, cur_offset);
cur_offset += 2;
target = (const char*)tvb_get_string_enc(pinfo->pool, tvb, cur_offset, target_len, ENC_ASCII|ENC_NA);
proto_tree_add_string(rr_tree, hf_dns_srv_target, tvb, cur_offset, used_bytes, target);
col_append_fstr(pinfo->cinfo, COL_INFO, " %u %u %s", priority, weight, target);
proto_item_append_text(trr,
", priority %u, weight %u, target %s",
priority, weight, target);
}
break;
case T_CAA: /* Certification Authority Restriction (257) */
{
proto_item *caa_item;
proto_tree *caa_tree;
guint8 tag_len;
const char *tag;
gushort value_len;
const guchar *value;
int cur_hf = -1;
caa_item = proto_tree_add_item(rr_tree, hf_dns_caa_flags, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
caa_tree = proto_item_add_subtree(caa_item, ett_caa_flags);
proto_tree_add_item(caa_tree, hf_dns_caa_flag_issuer_critical, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset++;
tag_len = tvb_get_guint8(tvb, cur_offset);
tag = (const char*)tvb_get_string_enc(pinfo->pool, tvb, cur_offset + 1, tag_len, ENC_ASCII|ENC_NA);
value_len = data_len - (tag_len + 2);
value = (guchar*)tvb_get_string_enc(pinfo->pool, tvb, cur_offset + 1 + tag_len, value_len, ENC_ASCII|ENC_NA);
value = (guchar*)format_text(pinfo->pool, value, value_len);
if (strncmp(tag, "issue", tag_len) == 0) {
cur_hf = hf_dns_caa_issue;
} else if (strncmp(tag, "issuewild", tag_len) == 0) {
cur_hf = hf_dns_caa_issuewild;
} else if (strncmp(tag, "iodef", tag_len) == 0) {
cur_hf = hf_dns_caa_iodef;
} else {
cur_hf = hf_dns_caa_unknown;
}
caa_item = proto_tree_add_string(rr_tree, cur_hf, tvb, cur_offset, 1 + tag_len + value_len, (const gchar*)value);
caa_tree = proto_item_add_subtree(caa_item, ett_caa_data);
proto_tree_add_uint(caa_tree, hf_dns_caa_tag_length, tvb, cur_offset, 1, tag_len);
proto_tree_add_string(caa_tree, hf_dns_caa_tag, tvb, cur_offset + 1, tag_len, tag);
proto_tree_add_string(caa_tree, hf_dns_caa_value, tvb, cur_offset + 1 + tag_len, value_len, (const gchar*)value);
}
break;
case T_WINS: /* Microsoft's WINS (65281)*/
{
int rr_len = data_len;
guint32 nservers;
proto_tree_add_item(rr_tree, hf_dns_wins_local_flag, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
rr_len -= 4;
proto_tree_add_item(rr_tree, hf_dns_wins_lookup_timeout, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
rr_len -= 4;
proto_tree_add_item(rr_tree, hf_dns_wins_cache_timeout, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
rr_len -= 4;
proto_tree_add_item(rr_tree, hf_dns_wins_nb_wins_servers, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
nservers = tvb_get_ntohl(tvb, cur_offset);
cur_offset += 4;
rr_len -= 4;
while (rr_len != 0 && nservers != 0) {
proto_tree_add_item(rr_tree, hf_dns_wins_server, tvb, cur_offset, 4, ENC_NA);
cur_offset += 4;
rr_len -= 4;
nservers--;
}
}
break;
case T_WINS_R: /* Microsoft's WINS-R (65282)*/
{
const gchar *dname;
int dname_len;
proto_tree_add_item(rr_tree, hf_dns_winsr_local_flag, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
proto_tree_add_item(rr_tree, hf_dns_winsr_lookup_timeout, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
proto_tree_add_item(rr_tree, hf_dns_winsr_cache_timeout, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
used_bytes = get_dns_name(tvb, cur_offset, 0, dns_data_offset, &dname, &dname_len);
name_out = format_text(pinfo->pool, (const guchar*)dname, dname_len);
proto_tree_add_string(rr_tree, hf_dns_winsr_name_result_domain, tvb, cur_offset, used_bytes, name_out);
col_append_fstr(pinfo->cinfo, COL_INFO, " %s", name_out);
proto_item_append_text(trr, ", name result domain %s", name_out);
}
break;
case T_XPF: /* XPF draft-bellis-dnsop-xpf */
{
guint32 address_family;
proto_tree_add_item_ret_uint(rr_tree, hf_dns_xpf_ip_version, tvb, cur_offset, 1, ENC_BIG_ENDIAN, &address_family);
cur_offset++;
switch (address_family) {
case IP_VERSION_NUM_INET:
proto_tree_add_item(rr_tree, hf_dns_xpf_protocol, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset++;
proto_tree_add_item(rr_tree, hf_dns_xpf_source_ipv4, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
proto_tree_add_item(rr_tree, hf_dns_xpf_destination_ipv4, tvb, cur_offset, 4, ENC_BIG_ENDIAN);
cur_offset += 4;
proto_tree_add_item(rr_tree, hf_dns_xpf_sport, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_xpf_dport, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
break;
case IP_VERSION_NUM_INET6:
proto_tree_add_item(rr_tree, hf_dns_xpf_protocol, tvb, cur_offset, 1, ENC_BIG_ENDIAN);
cur_offset++;
proto_tree_add_item(rr_tree, hf_dns_xpf_source_ipv6, tvb, cur_offset, 16, ENC_NA);
cur_offset += 16;
proto_tree_add_item(rr_tree, hf_dns_xpf_destination_ipv6, tvb, cur_offset, 16, ENC_NA);
cur_offset += 16;
proto_tree_add_item(rr_tree, hf_dns_xpf_sport, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
cur_offset += 2;
proto_tree_add_item(rr_tree, hf_dns_xpf_dport, tvb, cur_offset, 2, ENC_BIG_ENDIAN);
break;
default: /* Add Expert info ? */
break;
}
}
break;
/* TODO: parse more record types */
default:
{
expert_add_info_format(pinfo, trr, &ei_dns_undecoded_option,
"Dissector for DNS Type (%d)"
" code not implemented, Contact Wireshark developers"
" if you want this supported", dns_type);
proto_tree_add_item(rr_tree, hf_dns_data, tvb, cur_offset, data_len, ENC_NA);
}
break;
}
data_offset += data_len;
return data_offset - data_start;
}
static int
dissect_query_records(tvbuff_t *tvb, int cur_off, int dns_data_offset,
int count, packet_info *pinfo, proto_tree *dns_tree, gboolean isupdate,
gboolean is_mdns, gboolean *is_multiple_responds)
{
int start_off, add_off;
proto_tree *qatree;
proto_item *ti;
const char *s = (isupdate ? "Zone" : "Queries");
start_off = cur_off;
qatree = proto_tree_add_subtree(dns_tree, tvb, start_off, -1, ett_dns_qry, &ti, s);
while (count-- > 0) {
add_off = dissect_dns_query(tvb, cur_off, dns_data_offset, pinfo, qatree,
is_mdns, is_multiple_responds);
cur_off += add_off;
}
proto_item_set_len(ti, cur_off - start_off);
return cur_off - start_off;
}
static int
dissect_answer_records(tvbuff_t *tvb, int cur_off, int dns_data_offset,
int count, proto_tree *dns_tree, const char *name,
packet_info *pinfo, gboolean is_mdns)
{
int start_off, add_off;
proto_tree *qatree;
proto_item *ti;
start_off = cur_off;
qatree = proto_tree_add_subtree(dns_tree, tvb, start_off, -1, ett_dns_ans, &ti, name);
while (count-- > 0) {
add_off = dissect_dns_answer(
tvb, cur_off, dns_data_offset, qatree, pinfo, is_mdns);
cur_off += add_off;
}
proto_item_set_len(ti, cur_off - start_off);
return cur_off - start_off;
}
static int
dissect_dso_data(tvbuff_t *tvb, int offset, packet_info *pinfo _U_, proto_tree *dns_tree)
{
proto_tree *dso_tree;
proto_tree *dso_tlv_tree;
proto_item *dso_ti;
proto_item *dso_tlv_ti;
guint16 dso_tlv_length;
guint32 dso_tlv_type;
int start_offset;
start_offset = offset;
dso_ti = proto_tree_add_item(dns_tree, hf_dns_dso, tvb, offset, -1, ENC_NA);
dso_tree = proto_item_add_subtree(dso_ti, ett_dns_dso);
while(tvb_reported_length_remaining(tvb, offset) >= 4) {
dso_tlv_length = tvb_get_ntohs(tvb, offset + 2);
dso_tlv_ti = proto_tree_add_item(dso_tree, hf_dns_dso_tlv, tvb, offset, dso_tlv_length + 4, ENC_NA);
dso_tlv_tree = proto_item_add_subtree(dso_tlv_ti, ett_dns_dso_tlv);
proto_tree_add_item_ret_uint(dso_tlv_tree, hf_dns_dso_tlv_type, tvb, offset, 2, ENC_BIG_ENDIAN, &dso_tlv_type);
offset += 2;
proto_item_append_text(dso_tlv_ti, ": %s", rval_to_str_const(dso_tlv_type, dns_dso_type_rvals, "Unknown Type"));
proto_tree_add_item(dso_tlv_tree, hf_dns_dso_tlv_length, tvb, offset, 2, ENC_BIG_ENDIAN);
offset += 2;
switch(dso_tlv_type) {
case DSO_TYPE_KEEPALIVE:
proto_tree_add_item(dso_tlv_tree, hf_dns_dso_tlv_keepalive_inactivity, tvb, offset, 4, ENC_BIG_ENDIAN);
offset += 4;
proto_tree_add_item(dso_tlv_tree, hf_dns_dso_tlv_keepalive_interval, tvb, offset, 4, ENC_BIG_ENDIAN);
offset += 4;
break;
case DSO_TYPE_RETRYDELAY:
proto_tree_add_item(dso_tlv_tree, hf_dns_dso_tlv_retrydelay_retrydelay, tvb, offset, 4, ENC_BIG_ENDIAN);
offset += 4;
break;
case DSO_TYPE_ENCPAD:
if (dso_tlv_length > 0) {
proto_tree_add_item(dso_tlv_tree, hf_dns_dso_tlv_encpad_padding, tvb, offset, dso_tlv_length, ENC_NA);
offset += dso_tlv_length;
}
break;
default:
if (dso_tlv_length > 0) {
proto_tree_add_item(dso_tlv_tree, hf_dns_dso_tlv_data, tvb, offset, dso_tlv_length, ENC_NA);
offset += dso_tlv_length;
}
break;
}
}
proto_item_set_len(dso_ti, offset - start_offset);
return offset - start_offset;
}
static void
dissect_dns_common(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree,
enum DnsTransport transport, gboolean is_mdns, gboolean is_llmnr)
{
int offset = (transport == DNS_TRANSPORT_TCP || transport == DNS_TRANSPORT_QUIC) ? 2 : 0;
int dns_data_offset;
proto_tree *dns_tree, *field_tree;
proto_item *ti, *tf, *transaction_item;
guint16 flags, opcode, rcode, quest, ans, auth, add;
guint id;
guint32 reqresp_id = 0;
int cur_off;
gboolean isupdate;
conversation_t *conversation;
dns_conv_info_t *dns_info;
dns_transaction_t *dns_trans = NULL;
wmem_tree_key_t key[3];
struct DnsTap *dns_stats;
guint16 qtype = 0;
guint16 qclass = 0;
gboolean retransmission = FALSE;
const gchar *name;
int name_len;
nstime_t delta = NSTIME_INIT_ZERO;
gboolean is_multiple_responds = FALSE;
dns_data_offset = offset;
col_clear(pinfo->cinfo, COL_INFO);
/* To do: check for errs, etc. */
id = tvb_get_ntohs(tvb, offset + DNS_ID);
flags = tvb_get_ntohs(tvb, offset + DNS_FLAGS);
opcode = (guint16) ((flags & F_OPCODE) >> OPCODE_SHIFT);
rcode = (guint16) (flags & F_RCODE);
col_append_sep_fstr(pinfo->cinfo, COL_INFO, NULL, "%s%s 0x%04x",
val_to_str(opcode, opcode_vals, "Unknown operation (%u)"),
(flags&F_RESPONSE)?" response":"", id);
if (flags & F_RESPONSE) {
if (rcode != RCODE_NOERROR) {
col_append_fstr(pinfo->cinfo, COL_INFO, " %s",
val_to_str(rcode, rcode_vals, "Unknown error (%u)"));
}
}
if (opcode == OPCODE_UPDATE) {
isupdate = TRUE;
} else {
isupdate = FALSE;
}
if (is_llmnr) {
ti = proto_tree_add_protocol_format(tree, proto_llmnr, tvb, 0, -1,
"Link-local Multicast Name Resolution (%s)", (flags & F_RESPONSE) ? "response" : "query");
} else if (is_mdns){
ti = proto_tree_add_protocol_format(tree, proto_mdns, tvb, 0, -1,
"Multicast Domain Name System (%s)", (flags & F_RESPONSE) ? "response" : "query");
} else {
ti = proto_tree_add_protocol_format(tree, proto_dns, tvb, 0, -1,
"Domain Name System (%s)", (flags & F_RESPONSE) ? "response" : "query");
}
dns_tree = proto_item_add_subtree(ti, ett_dns);
/*
* Do we have a conversation for this connection?
*/
conversation = find_or_create_conversation(pinfo);
/*
* DoH: Each DNS query-response pair is mapped into an HTTP exchange.
* For other transports, just use the DNS transaction ID as usual.
*/
if (transport == DNS_TRANSPORT_HTTP) {
/* For DoH using HTTP/2, use the Stream ID if available. For HTTP/1,
* hopefully there is no pipelining or the DNS ID is unique enough. */
reqresp_id = http2_get_stream_id(pinfo);
}
if (reqresp_id == 0) {
reqresp_id = id;
}
/*
* Do we already have a state structure for this conv
*/
dns_info = (dns_conv_info_t *)conversation_get_proto_data(conversation, proto_dns);
if (!dns_info) {
/* No. Attach that information to the conversation, and add
* it to the list of information structures.
*/
dns_info = wmem_new(wmem_file_scope(), dns_conv_info_t);
dns_info->pdus=wmem_tree_new(wmem_file_scope());
conversation_add_proto_data(conversation, proto_dns, dns_info);
}
key[0].length = 1;
key[0].key = &reqresp_id;
key[1].length = 1;
key[1].key = &pinfo->num;
key[2].length = 0;
key[2].key = NULL;
if (!pinfo->flags.in_error_pkt) {
if (!pinfo->fd->visited) {
if (!(flags&F_RESPONSE)) {
/* This is a request */
gboolean new_transaction = FALSE;
/* Check if we've seen this transaction before */
dns_trans=(dns_transaction_t *)wmem_tree_lookup32_array_le(dns_info->pdus, key);
if ((dns_trans == NULL) || (dns_trans->id != reqresp_id) || (dns_trans->rep_frame > 0)) {
new_transaction = TRUE;
} else {
nstime_t request_delta;
/* Has not enough time elapsed that we consider this request a retransmission? */
nstime_delta(&request_delta, &pinfo->abs_ts, &dns_trans->req_time);
if (nstime_to_sec(&request_delta) < (double)retransmission_timer) {
retransmission = TRUE;
} else {
new_transaction = TRUE;
}
}
if (new_transaction) {
dns_trans=wmem_new(wmem_file_scope(), dns_transaction_t);
dns_trans->req_frame=pinfo->num;
dns_trans->rep_frame=0;
dns_trans->req_time=pinfo->abs_ts;
dns_trans->id = reqresp_id;
dns_trans->multiple_responds=FALSE;
wmem_tree_insert32_array(dns_info->pdus, key, (void *)dns_trans);
}
} else {
dns_trans=(dns_transaction_t *)wmem_tree_lookup32_array_le(dns_info->pdus, key);
if (dns_trans) {
if (dns_trans->id != reqresp_id) {
dns_trans = NULL;
} else if (dns_trans->rep_frame == 0) {
dns_trans->rep_frame=pinfo->num;
} else if (!dns_trans->multiple_responds) {
retransmission = TRUE;
}
}
}
} else {
dns_trans=(dns_transaction_t *)wmem_tree_lookup32_array_le(dns_info->pdus, key);
if (dns_trans) {
if (dns_trans->id != reqresp_id) {
dns_trans = NULL;
} else if ((!(flags & F_RESPONSE)) && (dns_trans->req_frame != pinfo->num)) {
/* This is a request retransmission, create a "fake" dns_trans structure*/
dns_transaction_t *retrans_dns = wmem_new(pinfo->pool, dns_transaction_t);
retrans_dns->req_frame=dns_trans->req_frame;
retrans_dns->rep_frame=0;
retrans_dns->req_time=pinfo->abs_ts;
dns_trans = retrans_dns;
retransmission = TRUE;
} else if ((flags & F_RESPONSE) && (dns_trans->rep_frame != pinfo->num) && (!dns_trans->multiple_responds)) {
retransmission = TRUE;
}
}
}
}
if (!dns_trans) {
/* create a "fake" dns_trans structure */
dns_trans=wmem_new(pinfo->pool, dns_transaction_t);
dns_trans->req_frame=0;
dns_trans->rep_frame=0;
dns_trans->req_time=pinfo->abs_ts;
}
if (transport == DNS_TRANSPORT_TCP) {
/* Put the length indication into the tree. */
proto_tree_add_item(dns_tree, hf_dns_length, tvb, offset - 2, 2, ENC_BIG_ENDIAN);
}
transaction_item = proto_tree_add_uint(dns_tree, hf_dns_transaction_id, tvb,
offset + DNS_ID, 2, id);
tf = proto_tree_add_item(dns_tree, hf_dns_flags, tvb,
offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
proto_item_append_text(tf, " %s",
val_to_str_const(opcode, opcode_vals, "Unknown operation"));
if (flags & F_RESPONSE) {
proto_item_append_text(tf, " response, %s",
val_to_str_const(rcode, rcode_vals, "Unknown error"));
}
field_tree = proto_item_add_subtree(tf, ett_dns_flags);
proto_tree_add_item(field_tree, hf_dns_flags_response,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(field_tree, hf_dns_flags_opcode,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
if (is_llmnr) {
if (flags & F_RESPONSE) {
proto_tree_add_item(field_tree, hf_dns_flags_conflict_response,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
} else {
proto_tree_add_item(field_tree, hf_dns_flags_conflict_query,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
}
proto_tree_add_item(field_tree, hf_dns_flags_truncated,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(field_tree, hf_dns_flags_tentative,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
if (flags & F_RESPONSE) {
proto_tree_add_item(field_tree, hf_dns_flags_rcode,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
}
} else {
if (flags & F_RESPONSE) {
proto_tree_add_item(field_tree, hf_dns_flags_authoritative,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
}
proto_tree_add_item(field_tree, hf_dns_flags_truncated,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
proto_tree_add_item(field_tree, hf_dns_flags_recdesired,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
if (flags & F_RESPONSE) {
proto_tree_add_item(field_tree, hf_dns_flags_recavail,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
}
proto_tree_add_item(field_tree, hf_dns_flags_z,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
if (flags & F_RESPONSE) {
proto_tree_add_item(field_tree, hf_dns_flags_authenticated,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
} else if (flags & F_AUTHENTIC) {
proto_tree_add_item(field_tree, hf_dns_flags_ad,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
}
proto_tree_add_item(field_tree, hf_dns_flags_checkdisable,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
if (flags & F_RESPONSE) {
proto_tree_add_item(field_tree, hf_dns_flags_rcode,
tvb, offset + DNS_FLAGS, 2, ENC_BIG_ENDIAN);
}
}
quest = tvb_get_ntohs(tvb, offset + DNS_QUEST);
if (isupdate) {
proto_tree_add_uint(dns_tree, hf_dns_count_zones, tvb,
offset + DNS_QUEST, 2, quest);
} else {
proto_tree_add_uint(dns_tree, hf_dns_count_questions, tvb,
offset + DNS_QUEST, 2, quest);
}
ans = tvb_get_ntohs(tvb, offset + DNS_ANS);
if (isupdate) {
proto_tree_add_uint(dns_tree, hf_dns_count_prerequisites, tvb,
offset + DNS_ANS, 2, ans);
} else {
proto_tree_add_uint(dns_tree, hf_dns_count_answers, tvb,
offset + DNS_ANS, 2, ans);
}
auth = tvb_get_ntohs(tvb, offset + DNS_AUTH);
if (isupdate) {
proto_tree_add_uint(dns_tree, hf_dns_count_updates, tvb,
offset + DNS_AUTH, 2, auth);
} else {
proto_tree_add_uint(dns_tree, hf_dns_count_auth_rr, tvb,
offset + DNS_AUTH, 2, auth);
}
add = tvb_get_ntohs(tvb, offset + DNS_ADD);
proto_tree_add_uint(dns_tree, hf_dns_count_add_rr, tvb,
offset + DNS_ADD, 2, add);
cur_off = offset + DNS_HDRLEN;
if (opcode == OPCODE_DSO && quest == 0 && ans == 0 && auth == 0 && add == 0) {
/* DSO messages differs somewhat from the traditional DNS message format.
the four count fields (QDCOUNT, ANCOUNT, NSCOUNT, ARCOUNT) are set to zero */
cur_off += dissect_dso_data(tvb, cur_off, pinfo, dns_tree);
}
if (quest > 0) {
/* If this is a response, don't add information about the queries
to the summary, just add information about the answers. */
cur_off += dissect_query_records(tvb, cur_off, dns_data_offset, quest, pinfo,
dns_tree, isupdate, is_mdns, &is_multiple_responds);
dns_trans->multiple_responds = is_multiple_responds;
}
if (ans > 0) {
/* If this is a request, don't add information about the answers
to the summary, just add information about the queries. */
cur_off += dissect_answer_records(tvb, cur_off, dns_data_offset, ans,
dns_tree,
(isupdate ? "Prerequisites" : "Answers"),
pinfo, is_mdns);
}
/* Don't add information about the authoritative name servers, or the
additional records, to the summary. */
if (auth > 0) {
cur_off += dissect_answer_records(tvb, cur_off, dns_data_offset, auth, dns_tree,
(isupdate ? "Updates" :
"Authoritative nameservers"),
pinfo, is_mdns);
}
if (add > 0) {
cur_off += dissect_answer_records(tvb, cur_off, dns_data_offset, add, dns_tree, "Additional records",
pinfo, is_mdns);
}
col_set_fence(pinfo->cinfo, COL_INFO);
/* print state tracking in the tree */
if (!(flags&F_RESPONSE)) {
proto_item *it;
/* This is a request */
if ((retransmission) && (dns_trans->req_frame) && (!pinfo->flags.in_error_pkt)) {
expert_add_info_format(pinfo, transaction_item, &ei_dns_retransmit_request, "DNS query retransmission. Original request in frame %d", dns_trans->req_frame);
it=proto_tree_add_uint(dns_tree, hf_dns_retransmit_request_in, tvb, 0, 0, dns_trans->req_frame);
proto_item_set_generated(it);
it=proto_tree_add_boolean(dns_tree, hf_dns_retransmission, tvb, 0, 0, TRUE);
proto_item_set_generated(it);
} else if (dns_trans->rep_frame) {
it=proto_tree_add_uint(dns_tree, hf_dns_response_in, tvb, 0, 0, dns_trans->rep_frame);
proto_item_set_generated(it);
}
} else {
/* This is a reply */
proto_item *it;
if (dns_trans->req_frame) {
if ((retransmission) && (dns_trans->rep_frame) && (!pinfo->flags.in_error_pkt)) {
expert_add_info_format(pinfo, transaction_item, &ei_dns_retransmit_response, "DNS response retransmission. Original response in frame %d", dns_trans->rep_frame);
it=proto_tree_add_uint(dns_tree, hf_dns_retransmit_response_in, tvb, 0, 0, dns_trans->rep_frame);
proto_item_set_generated(it);
it=proto_tree_add_boolean(dns_tree, hf_dns_retransmission, tvb, 0, 0, TRUE);
proto_item_set_generated(it);
} else {
it=proto_tree_add_uint(dns_tree, hf_dns_response_to, tvb, 0, 0, dns_trans->req_frame);
proto_item_set_generated(it);
nstime_delta(&delta, &pinfo->abs_ts, &dns_trans->req_time);
it=proto_tree_add_time(dns_tree, hf_dns_time, tvb, 0, 0, &delta);
proto_item_set_generated(it);
}
} else {
if (!retransmission) {
it=proto_tree_add_boolean(dns_tree, hf_dns_unsolicited, tvb, 0, 0, TRUE);
proto_item_set_generated(it);
}
}
}
/* Do we have any extraneous data? */
gint extraneous_length = tvb_reported_length_remaining(tvb, cur_off);
if(extraneous_length > 0) {
proto_tree *ext_tree;
proto_item *it;
ext_tree = proto_tree_add_subtree_format(dns_tree, tvb, cur_off, extraneous_length,
ett_dns_extraneous, &it, "Extraneous Data (%d bytes)", extraneous_length);
proto_tree_add_item(ext_tree, hf_dns_extraneous_data, tvb, cur_off, extraneous_length, ENC_NA);
it = proto_tree_add_int(ext_tree, hf_dns_extraneous_length, tvb, 0, 0, extraneous_length);
proto_item_set_generated(it);
it = proto_tree_add_expert(ext_tree, pinfo, &ei_dns_extraneous_data, tvb, cur_off, extraneous_length);
proto_item_set_hidden(it);
}
/* Collect stats */
if (pinfo->flags.in_error_pkt) {
return;
}
if (is_mdns) {
/* TODO */
} else if (is_llmnr) {
/* TODO */
} else {
dns_stats = wmem_new0(pinfo->pool, struct DnsTap);
dns_stats->packet_rcode = rcode;
dns_stats->packet_opcode = opcode;
dns_stats->packet_qr = flags >> 15;
if (quest > 0) {
get_dns_name_type_class(tvb, offset + DNS_HDRLEN, dns_data_offset, &name, &name_len, &qtype, &qclass);
dns_stats->packet_qtype = qtype;
dns_stats->packet_qclass = qclass;
}
dns_stats->payload_size = tvb_captured_length(tvb);
dns_stats->nquestions = quest;
dns_stats->nanswers = ans;
dns_stats->nauthorities = auth;
dns_stats->nadditionals = add;
if (quest > 0) {
dns_stats->qname_len = name_len;
dns_stats->qname_labels = qname_labels_count(name, name_len);
}
if (flags & F_RESPONSE) {
if (dns_trans->req_frame == 0) {
/* we don't have a request. This is an unsolicited response */
dns_stats->unsolicited = TRUE;
} else {
if (retransmission)
dns_stats->retransmission = TRUE;
else
dns_stats->rrt = delta;
}
}
tap_queue_packet(dns_tap, pinfo, dns_stats);
}
}
static int
dissect_dns_udp_sctp(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data _U_)
{
col_set_str(pinfo->cinfo, COL_PROTOCOL, "DNS");
dissect_dns_common(tvb, pinfo, tree, DNS_TRANSPORT_UDP, FALSE, FALSE);
return tvb_captured_length(tvb);
}
static int
dissect_dns_doh(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data _U_)
{
col_set_str(pinfo->cinfo, COL_PROTOCOL, "DoH");
dissect_dns_common(tvb, pinfo, tree, DNS_TRANSPORT_HTTP, FALSE, FALSE);
return tvb_captured_length(tvb);
}
static int
dissect_dns_doq(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data _U_)
{
col_set_str(pinfo->cinfo, COL_PROTOCOL, "DNS");
dissect_dns_common(tvb, pinfo, tree, DNS_TRANSPORT_QUIC, FALSE, FALSE);
return tvb_captured_length(tvb);
}
static int
dissect_mdns_udp(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data _U_)
{
col_set_str(pinfo->cinfo, COL_PROTOCOL, "MDNS");
dissect_dns_common(tvb, pinfo, tree, DNS_TRANSPORT_UDP, TRUE, FALSE);
return tvb_captured_length(tvb);
}
static int
dissect_llmnr_udp(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data _U_)
{
col_set_str(pinfo->cinfo, COL_PROTOCOL, "LLMNR");
dissect_dns_common(tvb, pinfo, tree, DNS_TRANSPORT_UDP, FALSE, TRUE);
return tvb_captured_length(tvb);
}
static guint
get_dns_pdu_len(packet_info *pinfo _U_, tvbuff_t *tvb, int offset, void *data _U_)
{
guint16 plen;
/*
* Get the length of the DNS packet.
*/
plen = tvb_get_ntohs(tvb, offset);
/*
* That length doesn't include the length field itself; add that in.
*/
return plen + 2;
}
static int
dissect_dns_tcp_pdu(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data _U_)
{
col_set_str(pinfo->cinfo, COL_PROTOCOL, "DNS");
dissect_dns_common(tvb, pinfo, tree, DNS_TRANSPORT_TCP, FALSE, FALSE);
return tvb_reported_length(tvb);
}
static int
dissect_dns_tcp(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data)
{
tcp_dissect_pdus(tvb, pinfo, tree, dns_desegment, 2, get_dns_pdu_len,
dissect_dns_tcp_pdu, data);
return tvb_reported_length(tvb);
}
static int
dissect_dns(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void* data)
{
/* since draft-ietf-doh-dns-over-https-07 */
gboolean is_doh = !g_strcmp0(pinfo->match_string, "application/dns-message");
if (is_doh) {
return dissect_dns_doh(tvb, pinfo, tree, data);
} else if (pinfo->ptype == PT_TCP) {
return dissect_dns_tcp(tvb, pinfo, tree, data);
} else {
dissect_dns_udp_sctp(tvb, pinfo, tree, data);
return tvb_captured_length(tvb);
}
}
static gboolean
dissect_dns_heur(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_)
{
/*
* Try hard to match DNS messages while avoiding false positives. Look for:
*
* - Non-empty DNS messages (more than just a header).
* - Flags: QR bit (0-Query, 1-Response); Opcode bits: Standard Query (0000)
* - Questions: 1 (for queries), or 0 or 1 (for responses like AXFR)
* - Answer RRs: 0 (for queries) or a low number (for responses)
* - Authority RRs: 0 (for queries) or a low number (for responses)
* - Additional RRs: assume a low number.
* - Require that the question and answer count cannot both be zero. Perhaps
* some protocols have large sequences of zero bytes, this check reduces the
* probability of matching such payloads.
* - Check that the packet is long enough to carry the Questions and RRs.
*
* Not implemented, but perhaps we could check for:
* - Assume a valid QNAME in the question section. (Is there sufficient data
* for a valid name?)
* - Assume a common QTYPE and QCLASS (IN/CH).
* - Potentially implement heuristics for TCP by checking the length prefix?
*/
int offset = 0;
guint16 flags, quest, ans, auth, add;
/*
* max_ans=10 was sufficient for recognizing the majority of DNS messages from
* the rrdns test suite, but four "huge record" test cases have 100 answers.
* The max_auth and max_add numbers were picked arbitrarily.
*/
const guint16 max_ans = 100;
const guint16 max_auth = 10;
const guint16 max_add = 10;
if (tvb_reported_length(tvb) <= DNS_HDRLEN)
return FALSE;
flags = tvb_get_ntohs(tvb, offset + DNS_FLAGS);
if ((flags & F_OPCODE) != 0)
return FALSE;
quest = tvb_get_ntohs(tvb, offset + DNS_QUEST);
ans = tvb_get_ntohs(tvb, offset + DNS_ANS);
auth = tvb_get_ntohs(tvb, offset + DNS_AUTH);
if (!(flags & F_RESPONSE)) {
if (quest != 1 || ans != 0 || auth != 0)
return FALSE;
} else {
if (quest > 1 || ans > max_ans || auth > max_auth)
return FALSE;
}
add = tvb_get_ntohs(tvb, offset + DNS_ADD);
if (add > max_add)
return FALSE;
if (quest + ans == 0)
return FALSE;
/* Do we even have enough space left? */
if ( (quest * 6 + (ans + auth + add) * 11) > tvb_reported_length_remaining(tvb, offset + DNS_HDRLEN))
return FALSE;
dissect_dns(tvb, pinfo, tree, NULL);
return TRUE;
}
static void dns_stats_tree_init(stats_tree* st)
{
st_node_packets = stats_tree_create_node(st, st_str_packets, 0, STAT_DT_INT, TRUE);
st_node_packet_qr = stats_tree_create_pivot(st, st_str_packet_qr, st_node_packets);
st_node_packet_qtypes = stats_tree_create_pivot(st, st_str_packet_qtypes, st_node_packets);
st_node_packet_qclasses = stats_tree_create_pivot(st, st_str_packet_qclasses, st_node_packets);
st_node_packet_rcodes = stats_tree_create_pivot(st, st_str_packet_rcodes, st_node_packets);
st_node_packet_opcodes = stats_tree_create_pivot(st, st_str_packet_opcodes, st_node_packets);
st_node_packets_avg_size = stats_tree_create_node(st, st_str_packets_avg_size, 0, STAT_DT_INT, FALSE);
st_node_query_stats = stats_tree_create_node(st, st_str_query_stats, 0, STAT_DT_INT, TRUE);
st_node_query_qname_len = stats_tree_create_node(st, st_str_query_qname_len, st_node_query_stats, STAT_DT_INT, FALSE);
st_node_query_domains = stats_tree_create_node(st, st_str_query_domains, st_node_query_stats, STAT_DT_INT, TRUE);
st_node_query_domains_l1 = stats_tree_create_node(st, st_str_query_domains_l1, st_node_query_domains, STAT_DT_INT, FALSE);
st_node_query_domains_l2 = stats_tree_create_node(st, st_str_query_domains_l2, st_node_query_domains, STAT_DT_INT, FALSE);
st_node_query_domains_l3 = stats_tree_create_node(st, st_str_query_domains_l3, st_node_query_domains, STAT_DT_INT, FALSE);
st_node_query_domains_lmore = stats_tree_create_node(st, st_str_query_domains_lmore, st_node_query_domains, STAT_DT_INT, FALSE);
st_node_response_stats = stats_tree_create_node(st, st_str_response_stats, 0, STAT_DT_INT, TRUE);
st_node_response_nquestions = stats_tree_create_node(st, st_str_response_nquestions,
st_node_response_stats, STAT_DT_INT, FALSE);
st_node_response_nanswers = stats_tree_create_node(st, st_str_response_nanswers,
st_node_response_stats, STAT_DT_INT, FALSE);
st_node_response_nauthorities = stats_tree_create_node(st, st_str_response_nauthorities,
st_node_response_stats, STAT_DT_INT, FALSE);
st_node_response_nadditionals = stats_tree_create_node(st, st_str_response_nadditionals,
st_node_response_stats, STAT_DT_INT, FALSE);
st_node_service_stats = stats_tree_create_node(st, st_str_service_stats, 0, STAT_DT_INT, TRUE);
st_node_service_unsolicited = stats_tree_create_node(st, st_str_service_unsolicited, st_node_service_stats, STAT_DT_INT, FALSE);
st_node_service_retransmission = stats_tree_create_node(st, st_str_service_retransmission, st_node_service_stats, STAT_DT_INT, FALSE);
st_node_service_rrt = stats_tree_create_node(st, st_str_service_rrt, st_node_service_stats, STAT_DT_FLOAT, FALSE);
}
static tap_packet_status dns_stats_tree_packet(stats_tree* st, packet_info* pinfo _U_, epan_dissect_t* edt _U_, const void* p, tap_flags_t flags _U_)
{
const struct DnsTap *pi = (const struct DnsTap *)p;
tick_stat_node(st, st_str_packets, 0, FALSE);
stats_tree_tick_pivot(st, st_node_packet_qr,
val_to_str(pi->packet_qr, dns_qr_vals, "Unknown qr (%d)"));
stats_tree_tick_pivot(st, st_node_packet_qtypes,
val_to_str(pi->packet_qtype, dns_types_vals, "Unknown packet type (%d)"));
stats_tree_tick_pivot(st, st_node_packet_qclasses,
val_to_str(pi->packet_qclass, dns_classes, "Unknown class (%d)"));
stats_tree_tick_pivot(st, st_node_packet_rcodes,
val_to_str(pi->packet_rcode, rcode_vals, "Unknown rcode (%d)"));
stats_tree_tick_pivot(st, st_node_packet_opcodes,
val_to_str(pi->packet_opcode, opcode_vals, "Unknown opcode (%d)"));
avg_stat_node_add_value_int(st, st_str_packets_avg_size, 0, FALSE,
pi->payload_size);
/* split up stats for queries and responses */
if (pi->packet_qr == 0) {
avg_stat_node_add_value_int(st, st_str_query_qname_len, 0, FALSE, pi->qname_len);
switch(pi->qname_labels) {
case 1:
tick_stat_node(st, st_str_query_domains_l1, 0, FALSE);
break;
case 2:
tick_stat_node(st, st_str_query_domains_l2, 0, FALSE);
break;
case 3:
tick_stat_node(st, st_str_query_domains_l3, 0, FALSE);
break;
default:
tick_stat_node(st, st_str_query_domains_lmore, 0, FALSE);
break;
}
} else {
avg_stat_node_add_value_int(st, st_str_response_nquestions, 0, FALSE, pi->nquestions);
avg_stat_node_add_value_int(st, st_str_response_nanswers, 0, FALSE, pi->nanswers);
avg_stat_node_add_value_int(st, st_str_response_nauthorities, 0, FALSE, pi->nauthorities);
avg_stat_node_add_value_int(st, st_str_response_nadditionals, 0, FALSE, pi->nadditionals);
if (pi->unsolicited) {
tick_stat_node(st, st_str_service_unsolicited, 0, FALSE);
} else {
avg_stat_node_add_value_int(st, st_str_response_nquestions, 0, FALSE, pi->nquestions);
avg_stat_node_add_value_int(st, st_str_response_nanswers, 0, FALSE, pi->nanswers);
avg_stat_node_add_value_int(st, st_str_response_nauthorities, 0, FALSE, pi->nauthorities);
avg_stat_node_add_value_int(st, st_str_response_nadditionals, 0, FALSE, pi->nadditionals);
if (pi->unsolicited) {
tick_stat_node(st, st_str_service_unsolicited, 0, FALSE);
} else {
if (pi->retransmission)
tick_stat_node(st, st_str_service_retransmission, 0, FALSE);
else
avg_stat_node_add_value_float(st, st_str_service_rrt, 0, FALSE, (gfloat)(pi->rrt.secs*1000. + pi->rrt.nsecs/1000000.0));
}
}
}
return TAP_PACKET_REDRAW;
}
void
proto_reg_handoff_dns(void)
{
dissector_add_uint_with_preference("udp.port", UDP_PORT_MDNS, mdns_udp_handle);
dissector_add_uint_with_preference("udp.port", UDP_PORT_LLMNR, llmnr_udp_handle);
dissector_add_uint("sctp.port", SCTP_PORT_DNS, dns_handle);
#if 0
dissector_add_uint("sctp.ppi", DNS_PAYLOAD_PROTOCOL_ID, dns_handle);
#endif
stats_tree_register("dns", "dns", "DNS", 0, dns_stats_tree_packet, dns_stats_tree_init, NULL);
gssapi_handle = find_dissector_add_dependency("gssapi", proto_dns);
ntlmssp_handle = find_dissector_add_dependency("ntlmssp", proto_dns);
tls_echconfig_handle = find_dissector("tls-echconfig");
ssl_dissector_add(TCP_PORT_DNS_TLS, dns_handle);
// RFC 7858 - registration via https://mailarchive.ietf.org/arch/msg/dns-privacy/iZ2rDIhFB2ZWsGC3PcdBVLGa8Do
dissector_add_string("tls.alpn", "dot", dns_handle);
dtls_dissector_add(UDP_PORT_DNS_DTLS, dns_handle);
dissector_add_uint_range_with_preference("tcp.port", DEFAULT_DNS_TCP_PORT_RANGE, dns_handle);
dissector_add_uint_range_with_preference("udp.port", DEFAULT_DNS_PORT_RANGE, dns_handle);
dissector_add_string("media_type", "application/dns-message", dns_handle); /* since draft-ietf-doh-dns-over-https-07 */
dissector_add_string("quic.proto", "doq", doq_handle); /* https://www.ietf.org/archive/id/draft-ietf-dprive-dnsoquic-03.txt */
heur_dissector_add("udp", dissect_dns_heur, "DNS over UDP", "dns_udp", proto_dns, HEURISTIC_ENABLE);
}
void
proto_register_dns(void)
{
static hf_register_info hf[] = {
{ &hf_dns_length,
{ "Length", "dns.length",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Length of DNS-over-TCP request or response", HFILL }},
{ &hf_dns_flags,
{ "Flags", "dns.flags",
FT_UINT16, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_flags_response,
{ "Response", "dns.flags.response",
FT_BOOLEAN, 16, TFS(&tfs_flags_response), F_RESPONSE,
"Is the message a response?", HFILL }},
{ &hf_dns_flags_opcode,
{ "Opcode", "dns.flags.opcode",
FT_UINT16, BASE_DEC, VALS(opcode_vals), F_OPCODE,
"Operation code", HFILL }},
{ &hf_dns_flags_authoritative,
{ "Authoritative", "dns.flags.authoritative",
FT_BOOLEAN, 16, TFS(&tfs_flags_authoritative), F_AUTHORITATIVE,
"Is the server is an authority for the domain?", HFILL }},
{ &hf_dns_flags_conflict_query,
{ "Conflict", "dns.flags.conflict",
FT_BOOLEAN, 16, TFS(&tfs_flags_conflict_query), F_CONFLICT,
"Did we receive multiple responses to a query?", HFILL }},
{ &hf_dns_flags_conflict_response,
{ "Conflict", "dns.flags.conflict",
FT_BOOLEAN, 16, TFS(&tfs_flags_conflict_response), F_CONFLICT,
"Is the name considered unique?", HFILL }},
{ &hf_dns_flags_truncated,
{ "Truncated", "dns.flags.truncated",
FT_BOOLEAN, 16, TFS(&tfs_flags_truncated), F_TRUNCATED,
"Is the message truncated?", HFILL }},
{ &hf_dns_flags_recdesired,
{ "Recursion desired", "dns.flags.recdesired",
FT_BOOLEAN, 16, TFS(&tfs_flags_recdesired), F_RECDESIRED,
"Do query recursively?", HFILL }},
{ &hf_dns_flags_tentative,
{ "Tentative", "dns.flags.tentative",
FT_BOOLEAN, 16, TFS(&tfs_flags_tentative), F_TENTATIVE,
"Is the responder authoritative for the name, but not yet verified the uniqueness?", HFILL }},
{ &hf_dns_flags_recavail,
{ "Recursion available", "dns.flags.recavail",
FT_BOOLEAN, 16, TFS(&tfs_flags_recavail), F_RECAVAIL,
"Can the server do recursive queries?", HFILL }},
{ &hf_dns_flags_z,
{ "Z", "dns.flags.z",
FT_BOOLEAN, 16, TFS(&tfs_flags_z), F_Z,
"Z flag", HFILL }},
{ &hf_dns_flags_authenticated,
{ "Answer authenticated", "dns.flags.authenticated",
FT_BOOLEAN, 16, TFS(&tfs_flags_authenticated), F_AUTHENTIC,
"Was the reply data authenticated by the server?", HFILL }},
{ &hf_dns_flags_ad,
{ "AD bit", "dns.flags.authenticated",
FT_BOOLEAN, 16, TFS(&tfs_set_notset), F_AUTHENTIC,
NULL, HFILL }},
{ &hf_dns_flags_checkdisable,
{ "Non-authenticated data", "dns.flags.checkdisable",
FT_BOOLEAN, 16, TFS(&tfs_flags_checkdisable), F_CHECKDISABLE,
"Is non-authenticated data acceptable?", HFILL }},
{ &hf_dns_flags_rcode,
{ "Reply code", "dns.flags.rcode",
FT_UINT16, BASE_DEC, VALS(rcode_vals), F_RCODE,
NULL, HFILL }},
{ &hf_dns_transaction_id,
{ "Transaction ID", "dns.id",
FT_UINT16, BASE_HEX, NULL, 0x0,
"Identification of transaction", HFILL }},
{ &hf_dns_qry_type,
{ "Type", "dns.qry.type",
FT_UINT16, BASE_DEC|BASE_EXT_STRING, &dns_types_vals_ext, 0,
"Query Type", HFILL }},
{ &hf_dns_qry_class,
{ "Class", "dns.qry.class",
FT_UINT16, BASE_HEX, VALS(dns_classes), 0x0,
"Query Class", HFILL }},
{ &hf_dns_qry_class_mdns,
{ "Class", "dns.qry.class",
FT_UINT16, BASE_HEX, VALS(dns_classes), 0x7FFF,
"Query Class", HFILL }},
{ &hf_dns_qry_qu,
{ "\"QU\" question", "dns.qry.qu",
FT_BOOLEAN, 16, NULL, C_QU,
"QU flag", HFILL }},
{ &hf_dns_qry_name,
{ "Name", "dns.qry.name",
FT_STRING, BASE_NONE, NULL, 0x0,
"Query Name", HFILL }},
{ &hf_dns_qry_name_len,
{ "Name Length", "dns.qry.name.len",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Query Name Len", HFILL }},
{ &hf_dns_count_labels,
{ "Label Count", "dns.count.labels",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Query Label Count", HFILL }},
{ &hf_dns_rr_type,
{ "Type", "dns.resp.type",
FT_UINT16, BASE_DEC|BASE_EXT_STRING, &dns_types_vals_ext, 0x0,
"Response Type", HFILL }},
{ &hf_dns_rr_class,
{ "Class", "dns.resp.class",
FT_UINT16, BASE_HEX, VALS(dns_classes), 0x0,
"Response Class", HFILL }},
{ &hf_dns_rr_class_mdns,
{ "Class", "dns.resp.class",
FT_UINT16, BASE_HEX, VALS(dns_classes), 0x7FFF,
"Response Class", HFILL }},
{ &hf_dns_rr_cache_flush,
{ "Cache flush", "dns.resp.cache_flush",
FT_BOOLEAN, 16, NULL, C_FLUSH,
"Cache flush flag", HFILL }},
{ &hf_dns_rr_ext_rcode,
{ "Higher bits in extended RCODE", "dns.resp.ext_rcode",
FT_UINT8, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_rr_edns0_version,
{ "EDNS0 version", "dns.resp.edns0_version",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_rr_z,
{ "Z", "dns.resp.z",
FT_UINT16, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_rr_z_do,
{ "DO bit", "dns.resp.z.do",
FT_BOOLEAN, 16, TFS(&tfs_dns_rr_z_do), 0x8000,
"DNSSEC OK", HFILL }},
{ &hf_dns_rr_z_reserved,
{ "Reserved", "dns.resp.z.reserved",
FT_UINT16, BASE_HEX, NULL, 0x7FFF,
NULL, HFILL }},
{ &hf_dns_srv_instance,
{ "Instance", "dns.srv.instance",
FT_STRING, BASE_NONE, NULL, 0x0,
"Desired service instance", HFILL }},
{ &hf_dns_srv_service,
{ "Service", "dns.srv.service",
FT_STRING, BASE_NONE, NULL, 0x0,
"Desired service", HFILL }},
{ &hf_dns_srv_proto,
{ "Protocol", "dns.srv.proto",
FT_STRING, BASE_NONE, NULL, 0x0,
"Desired protocol", HFILL }},
{ &hf_dns_srv_name,
{ "Name", "dns.srv.name",
FT_STRING, BASE_NONE, NULL, 0x0,
"Domain this resource record refers to", HFILL }},
{ &hf_dns_srv_priority,
{ "Priority", "dns.srv.priority",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_srv_weight,
{ "Weight", "dns.srv.weight",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_srv_port,
{ "Port", "dns.srv.port",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_srv_target,
{ "Target", "dns.srv.target",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_naptr_order,
{ "Order", "dns.naptr.order",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_naptr_preference,
{ "Preference", "dns.naptr.preference",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_naptr_flags_length,
{ "Flags Length", "dns.naptr.flags_length",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_naptr_flags,
{ "Flags", "dns.naptr.flags",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_naptr_service_length,
{ "Service Length", "dns.naptr.service_length",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_naptr_service,
{ "Service", "dns.naptr.service",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_naptr_regex_length,
{ "Regex Length", "dns.naptr.regex_length",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_naptr_regex,
{ "Regex", "dns.naptr.regex",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_naptr_replacement_length,
{ "Replacement Length", "dns.naptr.replacement_length",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_naptr_replacement,
{ "Replacement", "dns.naptr.replacement",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_rr_name,
{ "Name", "dns.resp.name",
FT_STRING, BASE_NONE, NULL, 0x0,
"Response Name", HFILL }},
{ &hf_dns_rr_ttl,
{ "Time to live", "dns.resp.ttl",
FT_UINT32, BASE_DEC, NULL, 0x0,
"Response TTL", HFILL }},
{ &hf_dns_rr_len,
{ "Data length", "dns.resp.len",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Response Length", HFILL }},
{ &hf_dns_a,
{ "Address", "dns.a",
FT_IPv4, BASE_NONE, NULL, 0x0,
"Response IPv4 Address", HFILL }},
{ &hf_dns_a_ch_domain,
{ "Chaos Domain", "dns.a.ch.domain",
FT_STRING, BASE_NONE, NULL, 0x0,
"Response Chaos Domain", HFILL }},
{ &hf_dns_a_ch_addr,
{ "Chaos Address", "dns.a.ch.addr",
FT_UINT16, BASE_OCT, NULL, 0x0,
"Response Chaos Address", HFILL }},
{ &hf_dns_md,
{ "Mail Destination", "dns.md",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_mf,
{ "Mail Forwarder", "dns.mf",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_mb,
{ "MailBox Domain", "dns.mb",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_mg,
{ "Mail Group member", "dns.mg",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_mr,
{ "Mail Rename domain", "dns.mr",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_null,
{ "Null (data)", "dns.null",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_aaaa,
{ "AAAA Address", "dns.aaaa",
FT_IPv6, BASE_NONE, NULL, 0x0,
"AAAA Response Address", HFILL }},
{ &hf_dns_cname,
{ "CNAME", "dns.cname",
FT_STRING, BASE_NONE, NULL, 0x0,
"Response Primary Name", HFILL }},
{ &hf_dns_rr_udp_payload_size_mdns,
{ "UDP payload size", "dns.rr.udp_payload_size",
FT_UINT16, BASE_HEX, NULL, 0x7FFF,
NULL, HFILL }},
{ &hf_dns_rr_udp_payload_size,
{ "UDP payload size", "dns.rr.udp_payload_size",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_soa_mname,
{ "Primary name server", "dns.soa.mname",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_soa_rname,
{ "Responsible authority's mailbox", "dns.soa.rname",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_soa_serial_number,
{ "Serial Number", "dns.soa.serial_number",
FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_soa_refresh_interval,
{ "Refresh Interval", "dns.soa.refresh_interval",
FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_soa_retry_interval,
{ "Retry Interval", "dns.soa.retry_interval",
FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_soa_expire_limit,
{ "Expire limit", "dns.soa.expire_limit",
FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_soa_minimum_ttl,
{ "Minimum TTL", "dns.soa.minimum_ttl",
FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ptr_domain_name,
{ "Domain Name", "dns.ptr.domain_name",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_wks_address,
{ "Address", "dns.wks.address",
FT_IPv4, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_wks_protocol,
{ "Protocol", "dns.wks.protocol",
FT_UINT8, BASE_DEC | BASE_EXT_STRING, &ipproto_val_ext, 0x0,
NULL, HFILL }},
{ &hf_dns_wks_bits,
{ "Bits", "dns.wks.bits",
FT_UINT8, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_hinfo_cpu_length,
{ "CPU Length", "dns.hinfo.cpu_length",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_hinfo_cpu,
{ "CPU", "dns.hinfo.cpu",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_hinfo_os_length,
{ "OS Length", "dns.hinfo.os_length",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_hinfo_os,
{ "OS", "dns.hinfo.os",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_minfo_r_mailbox,
{ "Responsible Mailbox", "dns.minfo.r",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_minfo_e_mailbox,
{ "Error Mailbox", "dns.minfo.e",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_mx_preference,
{ "Preference", "dns.mx.preference",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_mx_mail_exchange,
{ "Mail Exchange", "dns.mx.mail_exchange",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_txt_length,
{ "TXT Length", "dns.txt.length",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_txt,
{ "TXT", "dns.txt",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_openpgpkey,
{ "OpenPGP Key", "dns.openpgpkey",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_csync_soa,
{ "SOA", "dns.csync.soa",
FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_csync_flags,
{ "Flags", "dns.csync.flags",
FT_UINT16, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_csync_flags_immediate,
{ "immediate", "dns.csync.flags.immediate",
FT_BOOLEAN, 16, NULL, 0x0001,
NULL, HFILL }},
{ &hf_dns_csync_flags_soaminimum,
{ "soaminimum", "dns.csync.flags.soaminimum",
FT_BOOLEAN, 16, NULL, 0x0002,
NULL, HFILL }},
{ &hf_dns_csync_type_bitmap,
{ "Type Bitmap", "dns.csync.type_bitmap",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_zonemd_serial,
{ "Serial", "dns.zonemd.serial",
FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_zonemd_scheme,
{ "Scheme", "dns.zonemd.scheme",
FT_UINT8, BASE_DEC | BASE_RANGE_STRING, RVALS(dns_zonemd_scheme), 0x0,
NULL, HFILL }},
{ &hf_dns_zonemd_hash_algo,
{ "Hash Algorithm", "dns.zonemd.hash_algo",
FT_UINT8, BASE_DEC | BASE_RANGE_STRING, RVALS(dns_zonemd_hash_algo), 0x0,
NULL, HFILL }},
{ &hf_dns_zonemd_digest,
{ "Digest", "dns.zonemd.digest",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_svcb_priority,
{ "SvcPriority", "dns.svcb.svcpriority",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_svcb_target,
{ "TargetName", "dns.svcb.targetname",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_svcb_param_key,
{ "SvcParamKey", "dns.svcb.svcparam.key",
FT_UINT16, BASE_DEC, VALS(dns_svcb_param_key_vals), 0x0,
NULL, HFILL }},
{ &hf_dns_svcb_param_length,
{ "SvcParamValue length", "dns.svcb.svcparam.value.length",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_svcb_param_value,
{ "SvcParamValue", "dns.svcb.svcparam.value",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_svcb_param,
{ "SvcParam", "dns.svcb.svcparam",
FT_NONE, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_svcb_param_mandatory_key,
{ "Mandatory key", "dns.svcb.svcparam.mandatory.key",
FT_UINT16, BASE_DEC, VALS(dns_svcb_param_key_vals), 0x0,
"Mandatory keys in this RR", HFILL }},
{ &hf_dns_svcb_param_alpn_length,
{ "ALPN length", "dns.svcb.svcparam.alpn.length",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_svcb_param_alpn,
{ "ALPN", "dns.svcb.svcparam.alpn",
FT_STRING, BASE_NONE, NULL, 0x0,
"Additional supported protocols", HFILL }},
{ &hf_dns_svcb_param_port,
{ "Port", "dns.svcb.svcparam.port",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Port for alternative endpoint", HFILL }},
{ &hf_dns_svcb_param_ipv4hint_ip,
{ "IP", "dns.svcb.svcparam.ipv4hint.ip",
FT_IPv4, BASE_NONE, NULL, 0x0,
"IPv4 address hints", HFILL }},
{ &hf_dns_svcb_param_ipv6hint_ip,
{ "IP", "dns.svcb.svcparam.ipv6hint.ip",
FT_IPv6, BASE_NONE, NULL, 0x0,
"IPv6 address hints", HFILL }},
{ &hf_dns_svcb_param_dohpath,
{ "DoH path", "dns.svcb.svcparam.dohpath",
FT_STRING, BASE_NONE, NULL, 0x0,
"DoH URI template", HFILL}},
{ &hf_dns_svcb_param_odohconfig,
{ "ODoHConfig", "dns.svcb.svcparam.odohconfig",
FT_BYTES, BASE_NONE, NULL, 0x0,
"Oblivious DoH keys", HFILL }},
{ &hf_dns_spf_length,
{ "SPF Length", "dns.spf.length",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_spf,
{ "SPF", "dns.spf",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ilnp_nodeid_preference,
{ "Preference", "dns.ilnp.nid.preference",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ilnp_nodeid,
{ "NodeID", "dns.ilnp.nid",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ilnp_locator32_preference,
{ "Preference", "dns.ilnp.l32.preference",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ilnp_locator32,
{ "Locator32", "dns.ilnp.l32",
FT_IPv4, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ilnp_locator64_preference,
{ "Preference", "dns.ilnp.l64.preference",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ilnp_locator64,
{ "Locator64", "dns.ilnp.l64",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ilnp_locatorfqdn_preference,
{ "Preference", "dns.ilnp.lp.preference",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ilnp_locatorfqdn,
{ "Locator FQDN", "dns.ilnp.lp",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_eui48,
{ "EUI48 Address", "dns.eui48",
FT_ETHER, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_eui64,
{ "EUI64 Address", "dns.eui64",
FT_EUI64, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_rrsig_type_covered,
{ "Type Covered", "dns.rrsig.type_covered",
FT_UINT16, BASE_DEC|BASE_EXT_STRING, &dns_types_vals_ext, 0x0,
"Identifies the type of the RRset that is covered by this RRSIG record", HFILL }},
{ &hf_dns_rrsig_algorithm,
{ "Algorithm", "dns.rrsig.algorithm",
FT_UINT8, BASE_DEC, VALS(dnssec_algo_vals), 0x0,
"Identifies the cryptographic algorithm used to create the signature", HFILL }},
{ &hf_dns_rrsig_labels,
{ "Labels", "dns.rrsig.labels",
FT_UINT8, BASE_DEC, NULL, 0x0,
"Specifies the number of labels in the original RRSIG RR owner name", HFILL }},
{ &hf_dns_rrsig_original_ttl,
{ "Original TTL", "dns.rrsig.original_ttl",
FT_UINT32, BASE_DEC, NULL, 0x0,
"Specifies the TTL of the covered RRset as it appears in the authoritative zone", HFILL }},
{ &hf_dns_rrsig_signature_expiration,
{ "Signature Expiration", "dns.rrsig.signature_expiration",
FT_ABSOLUTE_TIME, ABSOLUTE_TIME_LOCAL, NULL, 0x0,
"Specify a validity period for the signature", HFILL }},
{ &hf_dns_rrsig_signature_inception,
{ "Signature Inception", "dns.rrsig.signature_inception",
FT_ABSOLUTE_TIME, ABSOLUTE_TIME_LOCAL, NULL, 0x0,
"Specify a validity period for the signature", HFILL }},
{ &hf_dns_rrsig_key_tag,
{ "Key Tag", "dns.rrsig.key_tag",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Contains the key tag value of the DNSKEY RR that validates this signature", HFILL }},
{ &hf_dns_rrsig_signers_name,
{ "Signer's name", "dns.rrsig.signers_name",
FT_STRING, BASE_NONE, NULL, 0x0,
"Identifies the owner name of the DNSKEY RR that a validator is supposed to use to validate this signature", HFILL }},
{ &hf_dns_rrsig_signature,
{ "Signature", "dns.rrsig.signature",
FT_BYTES, BASE_NONE, NULL, 0x0,
"Contains the cryptographic signature that covers the RRSIG RDATA", HFILL }},
{ &hf_dns_dnskey_flags,
{ "Flags", "dns.dnskey.flags",
FT_UINT16, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_dnskey_flags_zone_key,
{ "Zone Key", "dns.dnskey.flags.zone_key",
FT_BOOLEAN, 16, TFS(&dns_dnskey_zone_key_tfs), DNSKEY_FLAGS_ZK,
NULL, HFILL }},
{ &hf_dns_dnskey_flags_key_revoked,
{ "Key Revoked", "dns.dnskey.flags.key_revoked",
FT_BOOLEAN, 16, TFS(&tfs_yes_no), DNSKEY_FLAGS_KR,
NULL, HFILL }},
{ &hf_dns_dnskey_flags_secure_entry_point,
{ "Key Signing Key", "dns.dnskey.flags.secure_entry_point",
FT_BOOLEAN, 16, TFS(&tfs_yes_no), DNSKEY_FLAGS_SEP,
NULL, HFILL }},
{ &hf_dns_dnskey_flags_reserved,
{ "Key Signing Key", "dns.dnskey.flags.reserved",
FT_UINT16, BASE_HEX, NULL, DNSKEY_FLAGS_RSV,
"Must be zero", HFILL }},
{ &hf_dns_dnskey_protocol,
{ "Protocol", "dns.dnskey.protocol",
FT_UINT8, BASE_DEC, NULL, 0x0,
"Must be 3", HFILL }},
{ &hf_dns_dnskey_algorithm,
{ "Algorithm", "dns.dnskey.algorithm",
FT_UINT8, BASE_DEC, VALS(dnssec_algo_vals), 0x0,
"Identifies the public key's cryptographic algorithm and determines the format of the Public Key field", HFILL }},
{ &hf_dns_dnskey_key_id,
{ "Key id", "dns.dnskey.key_id",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_dnskey_public_key,
{ "Public Key", "dns.dnskey.public_key",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_key_flags,
{ "Flags", "dns.key.flags",
FT_UINT16, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_key_flags_authentication,
{ "Key allowed for authentication", "dns.key.flags.authentication",
FT_BOOLEAN, 16, TFS(&tfs_not_allowed_allowed), 0x8000,
NULL, HFILL }},
{ &hf_dns_key_flags_confidentiality,
{ "Key allowed for confidentiality", "dns.key.flags.confidentiality",
FT_BOOLEAN, 16, TFS(&tfs_not_allowed_allowed), 0x4000,
NULL, HFILL }},
{ &hf_dns_key_flags_key_required,
{ "Key required", "dns.key.flags.required",
FT_BOOLEAN, 16, TFS(&tfs_required_experimental), 0x2000,
NULL, HFILL }},
{ &hf_dns_key_flags_associated_user,
{ "Key is associated with a user", "dns.key.flags.associated_user",
FT_BOOLEAN, 16, TFS(&tfs_yes_no), 0x0400,
NULL, HFILL }},
{ &hf_dns_key_flags_associated_named_entity,
{ "Key is associated with the named entity", "dns.key.flags.associated_named_entity",
FT_BOOLEAN, 16, TFS(&tfs_yes_no), 0x0200,
NULL, HFILL }},
{ &hf_dns_key_flags_ipsec,
{ "Key use with IPSEC", "dns.key.flags.ipsec",
FT_BOOLEAN, 16, TFS(&tfs_valid_invalid), 0x0080,
NULL, HFILL }},
{ &hf_dns_key_flags_mime,
{ "Key use with MIME security multiparts", "dns.key.flags.mime",
FT_BOOLEAN, 16, TFS(&tfs_valid_invalid), 0x0040,
NULL, HFILL }},
{ &hf_dns_key_flags_signatory,
{ "Signatory", "dns.key.flags.signatory",
FT_UINT16, BASE_DEC, NULL, 0x000F,
NULL, HFILL }},
{ &hf_dns_key_protocol,
{ "Protocol", "dns.key.protocol",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_key_algorithm,
{ "Algorithm", "dns.key.algorithm",
FT_UINT8, BASE_DEC, VALS(dnssec_algo_vals), 0x0,
NULL, HFILL }},
{ &hf_dns_key_key_id,
{ "Key ID", "dns.key.key_id",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_key_public_key,
{ "Public Key", "dns.key.public_key",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_px_preference,
{ "Preference", "dns.px.preference",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_px_map822,
{ "MAP822", "dns.px.map822",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_px_mapx400,
{ "MAPX400", "dns.px.map400",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_tkey_algo_name,
{ "Algorithm name", "dns.tkey.algo_name",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_tkey_signature_expiration,
{ "Signature Expiration", "dns.tkey.signature_expiration",
FT_ABSOLUTE_TIME, ABSOLUTE_TIME_LOCAL, NULL, 0x0,
"Specify a validity period for the signature", HFILL }},
{ &hf_dns_tkey_signature_inception,
{ "Signature Inception", "dns.tkey.signature_inception",
FT_ABSOLUTE_TIME, ABSOLUTE_TIME_LOCAL, NULL, 0x0,
"Specify a validity period for the signature", HFILL }},
{ &hf_dns_tkey_mode,
{ "Mode", "dns.tkey.mode",
FT_UINT16, BASE_DEC, VALS(tkey_mode_vals), 0x0,
NULL, HFILL }},
{ &hf_dns_tkey_error,
{ "Error", "dns.tkey.error",
FT_UINT16, BASE_DEC, VALS(rcode_vals), 0x0,
NULL, HFILL }},
{ &hf_dns_tkey_key_size,
{ "Key Size", "dns.tkey.key_size",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_tkey_key_data,
{ "Key Data", "dns.tkey.key_data",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_tkey_other_size,
{ "Other Size", "dns.tkey.other_size",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_tkey_other_data,
{ "Other Data", "dns.tkey.other_data",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ipseckey_gateway_precedence,
{ "Gateway Precedence", "dns.ipseckey.gateway_precedence",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ipseckey_gateway_algorithm,
{ "Gateway Algorithm", "dns.ipseckey.gateway_algorithm",
FT_UINT8, BASE_DEC, VALS(gw_algo_vals), 0x0,
NULL, HFILL }},
{ &hf_dns_ipseckey_gateway_type,
{ "Gateway Type", "dns.ipseckey.gateway_type",
FT_UINT8, BASE_DEC, VALS(gw_type_vals), 0x0,
NULL, HFILL }},
{ &hf_dns_ipseckey_gateway_ipv4,
{ "IPv4 Gateway", "dns.ipseckey.gateway_ipv4",
FT_IPv4, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ipseckey_gateway_ipv6,
{ "IPv6 Gateway", "dns.ipseckey.gateway_ipv6",
FT_IPv6, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ipseckey_gateway_dns,
{ "DNS Gateway", "dns.ipseckey.gateway_dns",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ipseckey_public_key,
{ "Public Key", "dns.ipseckey.public_key",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_xpf_ip_version,
{ "IP Version", "dns.xpf.ip_version",
FT_UINT16, BASE_DEC,
VALS(ip_version_vals), 0x0,
NULL, HFILL }},
{ &hf_dns_xpf_protocol,
{ "Protocol", "dns.xpf.protocol",
FT_UINT8, BASE_DEC|BASE_EXT_STRING,
&ipproto_val_ext, 0x0,
NULL, HFILL }},
{ &hf_dns_xpf_source_ipv4,
{ "IPv4 Source", "dns.xpf.source_ipv4",
FT_IPv4, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_xpf_destination_ipv4,
{ "IPv4 Destination", "dns.xpf.destination_ipv4",
FT_IPv4, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_xpf_source_ipv6,
{ "IPv6 Source", "dns.xpf.source_ipv6",
FT_IPv6, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_xpf_destination_ipv6,
{ "IPv6 Destination", "dns.xpf.destination_ipv6",
FT_IPv6, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_xpf_sport,
{ "Source port", "dns.xpf.sport",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_xpf_dport,
{ "Destination port", "dns.xpf.dport",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_a6_prefix_len,
{ "Prefix len", "dns.a6.prefix_len",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_a6_address_suffix,
{ "Address Suffix", "dns.a6.address_suffix",
FT_IPv6, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_a6_prefix_name,
{ "Prefix name", "dns.a6.prefix_name",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_dname,
{ "Dname", "dns.dname",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_loc_version,
{ "Version", "dns.loc.version",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_loc_size,
{ "Size", "dns.loc.size",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_loc_horizontal_precision,
{ "Horizontal Precision", "dns.loc.horizontal_precision",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_loc_vertical_precision,
{ "Vertical Precision", "dns.loc.vertical_precision",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_loc_latitude,
{ "Latitude", "dns.loc.latitude",
FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_loc_longitude,
{ "Longitude", "dns.loc.longitude",
FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_loc_altitude,
{ "Altitude", "dns.loc.altitude",
FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_loc_unknown_data,
{ "Unknown data", "dns.loc.unknown_data",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_nxt_next_domain_name,
{ "Next Domain Name", "dns.nxt.next_domain_name",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_kx_preference,
{ "Preference", "dns.kx.preference",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_kx_key_exchange,
{ "Key Exchange", "dns.kx.key_exchange",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_cert_type,
{ "Type", "dns.cert.type",
FT_UINT16, BASE_DEC, VALS(dns_cert_type_vals), 0x0,
NULL, HFILL }},
{ &hf_dns_cert_key_tag,
{ "Key Tag", "dns.cert.key_tag",
FT_UINT16, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_cert_algorithm,
{ "Algorithm", "dns.cert.algorithm",
FT_UINT8, BASE_DEC, VALS(dnssec_algo_vals), 0x0,
NULL, HFILL }},
{ &hf_dns_cert_certificate,
{ "Certificate (or CRL)", "dns.cert.certificate",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_nsec_next_domain_name,
{ "Next Domain Name", "dns.nsec.next_domain_name",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_ns,
{ "Name Server", "dns.ns",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_opt,
{ "Option", "dns.opt",
FT_NONE, BASE_NONE,
NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_opt_code,
{ "Option Code", "dns.opt.code",
FT_UINT16, BASE_DEC,
VALS(edns0_opt_code_vals), 0x0,
NULL, HFILL }},
{ &hf_dns_opt_len,
{ "Option Length", "dns.opt.len",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_opt_data,
{ "Option Data", "dns.opt.data",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_opt_dau,
{ "DAU", "dns.opt.dau",
FT_UINT8, BASE_DEC, VALS(dnssec_algo_vals), 0x0,
"DNSSEC Algorithm Understood", HFILL }},
{ &hf_dns_opt_dhu,
{ "DHU", "dns.opt.dhu",
FT_UINT8, BASE_DEC, VALS(dns_ds_digest_vals), 0x0,
"DS Hash Understood", HFILL }},
{ &hf_dns_opt_n3u,
{ "N3U", "dns.opt.n3u",
FT_UINT8, BASE_DEC, VALS(hash_algorithms), 0x0,
"NSEC3 Hash Understood", HFILL }},
{ &hf_dns_opt_client_family,
{ "Family", "dns.opt.client.family",
FT_UINT16, BASE_DEC,
VALS(afn_vals), 0x0,
NULL, HFILL }},
{ &hf_dns_opt_client_netmask,
{ "Source Netmask", "dns.opt.client.netmask",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_opt_client_scope,
{ "Scope Netmask", "dns.opt.client.scope",
FT_UINT8, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_opt_client_addr,
{ "Client Subnet", "dns.opt.client.addr",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_opt_client_addr4,
{ "Client Subnet", "dns.opt.client.addr4",
FT_IPv4, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_opt_client_addr6,
{ "Client Subnet", "dns.opt.client.addr6",
FT_IPv6, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_opt_cookie_client,
{ "Client Cookie", "dns.opt.cookie.client",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_opt_cookie_server,
{ "Server Cookie", "dns.opt.cookie.server",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_opt_edns_tcp_keepalive_timeout,
{ "Timeout", "dns.opt.edns_tcp_keepalive.timeout",
FT_UINT16, BASE_DEC, NULL, 0x0,
"an idle timeout value for the TCP connection, specified in units of 100 milliseconds", HFILL }},
{ &hf_dns_opt_padding,
{ "Padding", "dns.opt.padding",
FT_BYTES, BASE_NONE, NULL, 0x0,
"The PADDING octets SHOULD be set to 0x00", HFILL }},
{ &hf_dns_opt_chain_fqdn,
{ "Closest Trust Point", "dns.opt.chain.fqdn",
FT_STRING, BASE_NONE, NULL, 0x0,
"A variable length Fully Qualified Domain Name (FQDN) in DNS wire format of the requested start point of the chain", HFILL }},
{ &hf_dns_opt_ext_error_info_code,
{ "Info Code", "dns.opt.ext_error.info_code",
FT_UINT16, BASE_DEC | BASE_RANGE_STRING, RVALS(dns_ext_err_info_code), 0x0,
NULL, HFILL }},
{ &hf_dns_opt_ext_error_extra_text,
{ "Extra Text", "dns.opt.ext_error.extra_text",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_count_questions,
{ "Questions", "dns.count.queries",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Number of queries in packet", HFILL }},
{ &hf_dns_count_zones,
{ "Zones", "dns.count.zones",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Number of zones in packet", HFILL }},
{ &hf_dns_count_answers,
{ "Answer RRs", "dns.count.answers",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Number of answers in packet", HFILL }},
{ &hf_dns_count_prerequisites,
{ "Prerequisites", "dns.count.prerequisites",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Number of prerequisites in packet", HFILL }},
{ &hf_dns_count_auth_rr,
{ "Authority RRs", "dns.count.auth_rr",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Number of authoritative records in packet", HFILL }},
{ &hf_dns_count_updates,
{ "Updates", "dns.count.updates",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Number of updates records in packet", HFILL }},
{ &hf_dns_nsec3_algo,
{ "Hash algorithm", "dns.nsec3.algo",
FT_UINT8, BASE_DEC, VALS(hash_algorithms), 0,
NULL, HFILL }},
{ &hf_dns_nsec3_flags,
{ "NSEC3 flags", "dns.nsec3.flags",
FT_UINT8, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_nsec3_flag_optout,
{ "NSEC3 Opt-out flag", "dns.nsec3.flags.opt_out",
FT_BOOLEAN, 8, TFS(&tfs_flags_nsec3_optout), NSEC3_FLAG_OPTOUT,
NULL, HFILL }},
{ &hf_dns_nsec3_iterations,
{ "NSEC3 iterations", "dns.nsec3.iterations",
FT_UINT16, BASE_DEC, NULL, 0,
"Number of hashing iterations", HFILL }},
{ &hf_dns_nsec3_salt_length,
{ "Salt length", "dns.nsec3.salt_length",
FT_UINT8, BASE_DEC, NULL, 0,
"Length of salt in bytes", HFILL }},
{ &hf_dns_nsec3_salt_value,
{ "Salt value", "dns.nsec3.salt_value",
FT_BYTES, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_nsec3_hash_length,
{ "Hash length", "dns.nsec3.hash_length",
FT_UINT8, BASE_DEC, NULL, 0,
"Length in bytes of next hashed owner", HFILL }},
{ &hf_dns_nsec3_hash_value,
{ "Next hashed owner", "dns.nsec3.hash_value",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_tlsa_certificate_usage,
{ "Certificate Usage", "dns.tlsa.certificate_usage",
FT_UINT8, BASE_DEC, VALS(tlsa_certificate_usage_vals), 0,
"Specifies the provided association that will be used to match the certificate presented in the TLS handshake", HFILL }},
{ &hf_dns_tlsa_selector,
{ "Selector", "dns.tlsa.selector",
FT_UINT8, BASE_DEC, VALS(tlsa_selector_vals), 0,
"Specifies which part of the TLS certificate presented by the server will be matched against the association data", HFILL }},
{ &hf_dns_tlsa_matching_type,
{ "Matching Type", "dns.tlsa.matching_type",
FT_UINT8, BASE_DEC, VALS(tlsa_matching_type_vals), 0,
"Specifies how the certificate association is presented", HFILL }},
{ &hf_dns_tlsa_certificate_association_data,
{ "Certificate Association Data", "dns.tlsa.certificate_association_data",
FT_BYTES, BASE_NONE, NULL, 0,
"The data refers to the certificate in the association", HFILL }},
{ &hf_dns_tsig_algorithm_name,
{ "Algorithm Name", "dns.tsig.algorithm_name",
FT_STRING, BASE_NONE, NULL, 0x0,
"Name of algorithm used for the MAC", HFILL }},
{ &hf_dns_tsig_time_signed,
{ "Time Signed", "dns.tsig.time_signed",
FT_ABSOLUTE_TIME, ABSOLUTE_TIME_LOCAL, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_tsig_original_id,
{ "Original Id", "dns.tsig.original_id",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_tsig_error,
{ "Error", "dns.tsig.error",
FT_UINT16, BASE_DEC, VALS(rcode_vals), 0x0,
"Expanded RCODE for TSIG", HFILL }},
{ &hf_dns_tsig_fudge,
{ "Fudge", "dns.tsig.fudge",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Number of bytes for the MAC", HFILL }},
{ &hf_dns_tsig_mac_size,
{ "MAC Size", "dns.tsig.mac_size",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Number of bytes for the MAC", HFILL }},
{ &hf_dns_tsig_other_len,
{ "Other Len", "dns.tsig.other_len",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Number of bytes for Other Data", HFILL }},
{ &hf_dns_tsig_mac,
{ "MAC", "dns.tsig.mac",
FT_NONE, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_tsig_other_data,
{ "Other Data", "dns.tsig.other_data",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_response_in,
{ "Response In", "dns.response_in",
FT_FRAMENUM, BASE_NONE, FRAMENUM_TYPE(FT_FRAMENUM_RESPONSE), 0x0,
"The response to this DNS query is in this frame", HFILL }},
{ &hf_dns_response_to,
{ "Request In", "dns.response_to",
FT_FRAMENUM, BASE_NONE, FRAMENUM_TYPE(FT_FRAMENUM_REQUEST), 0x0,
"This is a response to the DNS query in this frame", HFILL }},
{ &hf_dns_retransmission,
{ "Retransmission", "dns.retransmission",
FT_BOOLEAN, BASE_NONE, NULL, 0x0,
"This is a retransmission", HFILL }},
{ &hf_dns_retransmit_request_in,
{ "Retransmitted request. Original request in", "dns.retransmit_request_in",
FT_FRAMENUM, BASE_NONE, NULL, 0x0,
"This is a retransmitted DNS query", HFILL }},
{ &hf_dns_retransmit_response_in,
{ "Retransmitted response. Original response in", "dns.retransmit_response_in",
FT_FRAMENUM, BASE_NONE, NULL, 0x0,
"This is a retransmitted DNS response", HFILL }},
{ &hf_dns_time,
{ "Time", "dns.time",
FT_RELATIVE_TIME, BASE_NONE, NULL, 0x0,
"The time between the Query and the Response", HFILL }},
{ &hf_dns_unsolicited,
{ "Unsolicited", "dns.unsolicited",
FT_BOOLEAN, BASE_NONE, NULL, 0x0,
"This is an unsolicited response", HFILL }},
{ &hf_dns_count_add_rr,
{ "Additional RRs", "dns.count.add_rr",
FT_UINT16, BASE_DEC, NULL, 0x0,
"Number of additional records in packet", HFILL }},
{ &hf_dns_sshfp_algorithm,
{ "Algorithm", "dns.sshfp.algorithm",
FT_UINT8, BASE_DEC, VALS(sshfp_algo_vals), 0,
NULL, HFILL }},
{ &hf_dns_sshfp_fingerprint_type,
{ "Fingerprint type", "dns.sshfp.fingerprint.type",
FT_UINT8, BASE_DEC, VALS(sshfp_fingertype_vals), 0,
NULL, HFILL }},
{ &hf_dns_sshfp_fingerprint,
{ "Fingerprint", "dns.sshfp.fingerprint",
FT_BYTES, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_hip_hit_length,
{ "HIT length", "dns.hip.hit.length",
FT_UINT8, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_hip_pk_algo,
{ "HIT length", "dns.hip.hit.pk.algo",
FT_UINT8, BASE_DEC, VALS(hip_algo_vals), 0,
NULL, HFILL }},
{ &hf_dns_hip_pk_length,
{ "PK length", "dns.hip.pk.length",
FT_UINT16, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_hip_hit,
{ "Host Identity Tag", "dns.hip.hit",
FT_BYTES, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_hip_pk,
{ "HIP Public Key", "dns.hip.pk",
FT_BYTES, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_hip_rendezvous_server,
{ "Rendezvous Server", "dns.hip.rendezvous_server",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_dhcid_rdata,
{ "DHCID Data", "dns.dhcid.rdata",
FT_BYTES, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_ds_key_id,
{ "Key id", "dns.ds.key_id",
FT_UINT16, BASE_HEX, NULL, 0,
NULL, HFILL }},
{ &hf_dns_ds_algorithm,
{ "Algorithm", "dns.ds.algorithm",
FT_UINT8, BASE_DEC, VALS(dnssec_algo_vals), 0,
NULL, HFILL }},
{ &hf_dns_ds_digest_type,
{ "Digest Type", "dns.ds.digest_type",
FT_UINT8, BASE_DEC, VALS(dns_ds_digest_vals), 0,
NULL, HFILL }},
{ &hf_dns_ds_digest,
{ "Digest", "dns.ds.digest",
FT_BYTES, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_apl_address_family,
{ "Address Family", "dns.apl.address_family",
FT_UINT16, BASE_DEC, VALS(afn_vals), 0,
NULL, HFILL }},
{ &hf_dns_apl_coded_prefix,
{ "Prefix Length", "dns.apl.coded_prefix",
FT_UINT8, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_apl_negation,
{ "Negation Flag", "dns.apl.negation",
FT_BOOLEAN, 8, TFS(&tfs_dns_apl_negation), DNS_APL_NEGATION,
NULL, HFILL }},
{ &hf_dns_apl_afdlength,
{ "Address Length","dns.apl.afdlength",
FT_UINT8, BASE_DEC, NULL, DNS_APL_AFDLENGTH,
"in octets", HFILL }},
{ &hf_dns_apl_afdpart_ipv4,
{ "Address","dns.apl.afdpart.ipv4",
FT_IPv4, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_apl_afdpart_ipv6,
{ "Address","dns.apl.afdpart.ipv6",
FT_IPv6, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_apl_afdpart_data,
{ "Address","dns.apl.afdpart.data",
FT_BYTES, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_gpos_longitude_length,
{ "Longitude length","dns.gpos.longitude_length",
FT_UINT8, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_gpos_longitude,
{ "Longitude","dns.gpos.longitude",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_gpos_latitude_length,
{ "Latitude length","dns.gpos.latitude_length",
FT_UINT8, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_gpos_latitude,
{ "Latitude","dns.gpos.latitude",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_gpos_altitude_length,
{ "Altitude length","dns.gpos.altitude_length",
FT_UINT8, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_gpos_altitude,
{ "Altitude","dns.gpos.altitude",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_rp_mailbox,
{ "Mailbox","dns.rp.mailbox",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_rp_txt_rr,
{ "TXT RR","dns.rp.txt_rr",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_afsdb_subtype,
{ "Subtype","dns.afsdb.subtype",
FT_UINT16, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_afsdb_hostname,
{ "Hostname","dns.afsdb.hostname",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_x25_length,
{ "Length","dns.x25.length",
FT_UINT8, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_x25_psdn_address,
{ "PSDN-Address","dns.x25.psdn_address",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_isdn_length,
{ "Length","dns.idsn.length",
FT_UINT8, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_isdn_address,
{ "ISDN Address","dns.idsn.address",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_isdn_sa_length,
{ "Length","dns.idsn.sa.length",
FT_UINT8, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_isdn_sa,
{ "Sub Address","dns.idsn.sa.address",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_rt_preference,
{ "Preference","dns.rt.subtype",
FT_UINT16, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_rt_intermediate_host,
{ "Intermediate Hostname","dns.rt.intermediate_host",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_nsap_rdata,
{ "NSAP Data", "dns.nsap.rdata",
FT_BYTES, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_nsap_ptr_owner,
{ "Owner", "dns.nsap_ptr.owner",
FT_STRING, BASE_NONE, NULL, 0,
NULL, HFILL }},
{ &hf_dns_caa_flags,
{ "CAA Flags", "dns.caa.flags",
FT_UINT8, BASE_HEX, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_caa_flag_issuer_critical,
{ "Issuer Critical", "dns.caa.flags.issuer_critical",
FT_BOOLEAN, 8, TFS(&tfs_critical_not_critical), CAA_FLAG_ISSUER_CRITICAL,
"Other CAs must not issue certificates", HFILL }},
{ &hf_dns_caa_issue,
{ "Issue", "dns.caa.issue",
FT_STRING, BASE_NONE, NULL, 0x0,
"CA which is allowed to issue certificates", HFILL }},
{ &hf_dns_caa_issuewild,
{ "Issue Wildcard", "dns.caa.issuewild",
FT_STRING, BASE_NONE, NULL, 0x0,
"CA which is allowed to issue wildcard certificates", HFILL }},
{ &hf_dns_caa_iodef,
{ "Report URL", "dns.caa.iodef",
FT_STRING, BASE_NONE, NULL, 0x0,
"URL or email address for certificate issue requests and violation reports", HFILL }},
{ &hf_dns_caa_unknown,
{ "Unknown tag", "dns.caa.unknown",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_caa_tag_length,
{ "Tag length", "dns.caa.tag_length",
FT_UINT8, BASE_DEC, NULL, 0,
NULL, HFILL }},
{ &hf_dns_caa_tag,
{ "Tag", "dns.caa.tag",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_caa_value,
{ "Value", "dns.caa.value",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_extraneous_data,
{ "Extraneous Data Bytes", "dns.extraneous.data",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_extraneous_length,
{ "Extraneous Data Length", "dns.extraneous.length",
FT_INT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_wins_local_flag,
{ "Local Flag", "dns.wins.local_flag",
FT_BOOLEAN, 32, NULL, 0x1,
NULL, HFILL }},
{ &hf_dns_wins_lookup_timeout,
{ "Lookup timeout", "dns.wins.lookup_timeout",
FT_UINT32, BASE_DEC, NULL, 0x0,
"In seconds", HFILL }},
{ &hf_dns_wins_cache_timeout,
{ "Cache timeout", "dns.wins.cache_timeout",
FT_UINT32, BASE_DEC, NULL, 0x0,
"In seconds", HFILL }},
{ &hf_dns_wins_nb_wins_servers,
{ "Number of WINS servers", "dns.wins.nb_wins_servers",
FT_UINT32, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_wins_server,
{ "WINS Server Address", "dns.wins.wins_server",
FT_IPv4, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_winsr_local_flag,
{ "Local Flag", "dns.winsr.local_flag",
FT_BOOLEAN, 32, NULL, 0x1,
NULL, HFILL }},
{ &hf_dns_winsr_lookup_timeout,
{ "Lookup timeout", "dns.winsr.lookup_timeout",
FT_UINT32, BASE_DEC, NULL, 0x0,
"In seconds", HFILL }},
{ &hf_dns_winsr_cache_timeout,
{ "Cache timeout", "dns.winsr.cache_timeout",
FT_UINT32, BASE_DEC, NULL, 0x0,
"In seconds", HFILL }},
{ &hf_dns_winsr_name_result_domain,
{ "Name Result Domain", "dns.winsr.name_result_domain",
FT_STRING, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_data,
{ "Data", "dns.data",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_dso,
{ "DNS Stateful Operation", "dns.dso",
FT_NONE, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_dso_tlv,
{ "DSO TLV", "dns.dso.tlv",
FT_NONE, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_dso_tlv_type,
{ "Type", "dns.dso.tlv.type",
FT_UINT16, BASE_DEC | BASE_RANGE_STRING, RVALS(dns_dso_type_rvals), 0x0,
NULL, HFILL }},
{ &hf_dns_dso_tlv_length,
{ "Length", "dns.dso.tlv.length",
FT_UINT16, BASE_DEC, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_dso_tlv_data,
{ "Data", "dns.dso.tlv.data",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
{ &hf_dns_dso_tlv_keepalive_inactivity,
{ "Inactivity Timeout", "dns.dso.tlv.keepalive.inactivity",
FT_UINT32, BASE_DEC, NULL, 0x0,
"Inactivity Timeout (ms)", HFILL }},
{ &hf_dns_dso_tlv_keepalive_interval,
{ "Keepalive Interval", "dns.dso.tlv.keepalive.interval",
FT_UINT32, BASE_DEC, NULL, 0x0,
"Keepalive Interval (ms)", HFILL }},
{ &hf_dns_dso_tlv_retrydelay_retrydelay,
{ "Retry Delay", "dns.dso.tlv.retrydelay.retrydelay",
FT_UINT32, BASE_DEC, NULL, 0x0,
"Retry Delay (ms)", HFILL }},
{ &hf_dns_dso_tlv_encpad_padding,
{ "Padding", "dns.dso.tlv.encpad.padding",
FT_BYTES, BASE_NONE, NULL, 0x0,
NULL, HFILL }},
};
static ei_register_info ei[] = {
{ &ei_dns_a_class_undecoded, { "dns.a.class.undecoded", PI_UNDECODED, PI_NOTE, "Undecoded class", EXPFILL }},
{ &ei_dns_opt_bad_length, { "dns.rr.opt.bad_length", PI_MALFORMED, PI_ERROR, "Length too long for any type of IP address.", EXPFILL }},
{ &ei_dns_undecoded_option, { "dns.undecoded.type", PI_UNDECODED, PI_NOTE, "Undecoded option", EXPFILL }},
{ &ei_dns_depr_opc, { "dns.depr.opc", PI_PROTOCOL, PI_WARN, "Deprecated opcode", EXPFILL }},
{ &ei_ttl_high_bit_set, { "dns.ttl.high_bit_set", PI_PROTOCOL, PI_WARN, "The uppermost bit of the TTL is set (RFC 2181, section 8)", EXPFILL }},
{ &ei_dns_tsig_alg, { "dns.tsig.noalg", PI_UNDECODED, PI_WARN, "No dissector for algorithm", EXPFILL }},
{ &ei_dns_key_id_buffer_too_short, { "dns.key_id_buffer_too_short", PI_PROTOCOL, PI_WARN, "Buffer too short to compute a key id", EXPFILL }},
{ &ei_dns_retransmit_request, { "dns.retransmit_request", PI_PROTOCOL, PI_WARN, "DNS query retransmission", EXPFILL }},
{ &ei_dns_retransmit_response, { "dns.retransmit_response", PI_PROTOCOL, PI_WARN, "DNS response retransmission", EXPFILL }},
{ &ei_dns_extraneous_data, { "dns.extraneous", PI_UNDECODED, PI_NOTE, "Extraneous data", EXPFILL }},
};
static gint *ett[] = {
&ett_dns,
&ett_dns_qd,
&ett_dns_rr,
&ett_dns_qry,
&ett_dns_ans,
&ett_dns_flags,
&ett_dns_opts,
&ett_nsec3_flags,
&ett_key_flags,
&ett_t_key,
&ett_dns_mac,
&ett_caa_flags,
&ett_caa_data,
&ett_dns_csdync_flags,
&ett_dns_dso,
&ett_dns_dso_tlv,
&ett_dns_svcb,
&ett_dns_extraneous,
};
module_t *dns_module;
expert_module_t* expert_dns;
proto_dns = proto_register_protocol("Domain Name System", "DNS", "dns");
proto_mdns = proto_register_protocol("Multicast Domain Name System", "mDNS", "mdns");
proto_llmnr = proto_register_protocol("Link-local Multicast Name Resolution", "LLMNR", "llmnr");
proto_register_field_array(proto_dns, hf, array_length(hf));
proto_register_subtree_array(ett, array_length(ett));
expert_dns = expert_register_protocol(proto_dns);
expert_register_field_array(expert_dns, ei, array_length(ei));
dns_module = prefs_register_protocol(proto_dns, NULL);
prefs_register_bool_preference(dns_module, "desegment_dns_messages",
"Reassemble DNS messages spanning multiple TCP segments",
"Whether the DNS dissector should reassemble messages spanning multiple TCP segments."
" To use this option, you must also enable \"Allow subdissectors to reassemble TCP streams\" in the TCP protocol settings.",
&dns_desegment);
prefs_register_uint_preference(dns_module, "retransmission_timer",
"Number of seconds allowed between retransmissions",
"Number of seconds allowed between DNS requests with the same transaction ID to consider it a retransmission."
" Otherwise its considered a new request.",
10, &retransmission_timer);
prefs_register_obsolete_preference(dns_module, "use_for_addr_resolution");
prefs_register_static_text_preference(dns_module, "text_use_for_addr_resolution",
"DNS address resolution settings can be changed in the Name Resolution preferences",
"DNS address resolution settings can be changed in the Name Resolution preferences");
dns_tsig_dissector_table = register_dissector_table("dns.tsig.mac", "DNS TSIG MAC", proto_dns, FT_STRING, STRING_CASE_SENSITIVE);
dns_handle = register_dissector("dns", dissect_dns, proto_dns);
mdns_udp_handle = register_dissector("mdns", dissect_mdns_udp, proto_mdns);
llmnr_udp_handle = register_dissector("llmnr", dissect_llmnr_udp, proto_llmnr);
doq_handle = register_dissector("dns.doq", dissect_dns_doq, proto_dns);
dns_tap = register_tap("dns");
}
/*
* Editor modelines
*
* Local Variables:
* c-basic-offset: 2
* tab-width: 8
* indent-tabs-mode: nil
* End:
*
* ex: set shiftwidth=2 tabstop=8 expandtab:
* :indentSize=2:tabSize=8:noTabs=true:
*/
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