/* packet-bpv7.c * Routines for Bundle Protocol Version 7 dissection * References: * RFC 9171: https://www.rfc-editor.org/rfc/rfc9171.html * * Copyright 2019-2021, Brian Sipos * * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * SPDX-License-Identifier: LGPL-2.1-or-later */ #include "config.h" #define WS_LOG_DOMAIN "packet-bpv7" #include #include "packet-bpv7.h" #include "epan/wscbor.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include void proto_register_bpv7(void); void proto_reg_handoff_bpv7(void); /// Protocol column name static const char *const proto_name_bp = "BPv7"; static const char *const proto_name_bp_admin = "BPv7 Admin"; /// Protocol preferences and defaults static bool bp_compute_crc = true; static bool bp_reassemble_payload = true; static bool bp_payload_try_heur; /// Protocol handles static int proto_bp; static int bp_tap; static int proto_blocktype; static int proto_bp_admin; static int proto_admintype; /// Protocol-level data static bp_history_t *bp_history; static dissector_handle_t handle_admin; /// Dissect opaque CBOR data static dissector_handle_t handle_cbor; static dissector_handle_t handle_cborseq; /// Extension sub-dissectors static dissector_table_t block_dissectors; static dissector_table_t payload_dissectors_dtn_wkssp; static dissector_table_t payload_dissectors_dtn_serv; static dissector_table_t payload_dissectors_ipn_serv; static dissector_table_t admin_dissectors; /// BTSD heuristic static heur_dissector_list_t btsd_heur; /// Fragment reassembly static reassembly_table bp_reassembly_table; static const val64_string eid_schemes[] = { {EID_SCHEME_DTN, "dtn"}, {EID_SCHEME_IPN, "ipn"}, {0, NULL}, }; static const val64_string crc_vals[] = { {BP_CRC_NONE, "None"}, {BP_CRC_16, "CRC-16"}, {BP_CRC_32, "CRC-32C"}, {0, NULL}, }; typedef struct { /// Type of block uint64_t type_code; /// Limit on total count uint64_t limit; } blocktype_limit; /// Block type count limits static const blocktype_limit blocktype_limits[] = { {BP_BLOCKTYPE_PAYLOAD, 1}, {BP_BLOCKTYPE_PREV_NODE, 1}, {BP_BLOCKTYPE_BUNDLE_AGE, 1}, {BP_BLOCKTYPE_HOP_COUNT, 1}, // Mandatory last row {BP_BLOCKTYPE_INVALID, 0}, }; /// Dissection order by block type static int blocktype_order(const bp_block_canonical_t *block) { if (block->type_code) { switch (*(block->type_code)) { case BP_BLOCKTYPE_BCB: return -2; case BP_BLOCKTYPE_BIB: return -1; default: return 0; } } return 0; } static const val64_string status_report_reason_vals[] = { {0, "No additional information"}, {1, "Lifetime expired"}, {2, "Forwarded over unidirectional link"}, {3, "Transmission canceled"}, {4, "Depleted storage"}, {5, "Destination endpoint ID unintelligible"}, {6, "No known route to destination from here"}, {7, "No timely contact with next node on route"}, {8, "Block unintelligible"}, {9, "Hop limit exceeded"}, {10, "Traffic pared"}, {11, "Block unsupported"}, {12, "Missing Security Operation"}, {13, "Unknown Security Operation"}, {14, "Unexpected Security Operation"}, {15, "Failed Security Operation"}, {16, "Conflicting Security Operation"}, {0, NULL}, }; enum { /// The last bundle in the frame (as a bp_bundle_t*) PROTO_DATA_BUNDLE = 1, }; static int hf_bundle_head; static int hf_bundle_break; static int hf_block; static int hf_crc_type; static int hf_crc_field_uint16; static int hf_crc_field_uint32; static int hf_crc_status; static int hf_time_dtntime; static int hf_time_utctime; static int hf_create_ts_time; static int hf_create_ts_seqno; static int hf_eid_scheme; static int hf_eid_dtn_ssp_code; static int hf_eid_dtn_ssp_text; static int hf_eid_ipn_node; static int hf_eid_ipn_service; static int hf_eid_dtn_wkssp; static int hf_eid_dtn_serv; static int hf_primary_version; static int hf_primary_bundle_flags; static int hf_primary_bundle_flags_deletion_report; static int hf_primary_bundle_flags_delivery_report; static int hf_primary_bundle_flags_forwarding_report; static int hf_primary_bundle_flags_reception_report; static int hf_primary_bundle_flags_req_status_time; static int hf_primary_bundle_flags_user_app_ack; static int hf_primary_bundle_flags_no_fragment; static int hf_primary_bundle_flags_payload_admin; static int hf_primary_bundle_flags_is_fragment; static int hf_primary_dst_eid; static int hf_primary_dst_uri; static int hf_primary_src_nodeid; static int hf_primary_src_uri; static int hf_primary_srcdst_uri; static int hf_primary_report_nodeid; static int hf_primary_report_uri; static int hf_primary_create_ts; static int hf_primary_lifetime; static int hf_primary_lifetime_exp; static int hf_primary_expire_ts; static int hf_primary_frag_offset; static int hf_primary_total_length; static int hf_bundle_ident; static int hf_bundle_first_seen; static int hf_bundle_retrans_seen; static int hf_bundle_seen_time_diff; static int hf_bundle_dst_dtn_srv; static int hf_bundle_dst_ipn_srv; static int hf_bundle_status_ref; static int hf_canonical_type_code; static int hf_canonical_block_num; static int hf_canonical_block_flags; static int hf_canonical_block_flags_delete_no_process; static int hf_canonical_block_flags_status_no_process; static int hf_canonical_block_flags_remove_no_process; static int hf_canonical_block_flags_replicate_in_fragment; static int hf_canonical_data_size; static int hf_canonical_data; static int hf_previous_node_nodeid; static int hf_previous_node_uri; static int hf_bundle_age_time; static int hf_hop_count_limit; static int hf_hop_count_current; static int hf_admin_record_type; static int hf_status_rep; static int hf_status_rep_status_info; static int hf_status_assert_val; static int hf_status_assert_time; static int hf_status_rep_received; static int hf_status_rep_forwarded; static int hf_status_rep_delivered; static int hf_status_rep_deleted; static int hf_status_rep_reason_code; static int hf_status_rep_subj_src_nodeid; static int hf_status_rep_subj_src_uri; static int hf_status_rep_subj_ts; static int hf_status_rep_subj_frag_offset; static int hf_status_rep_subj_payload_len; static int hf_status_rep_subj_ident; static int hf_status_rep_subj_ref; static int hf_status_time_diff; static int hf_payload_fragments; static int hf_payload_fragment; static int hf_payload_fragment_overlap; static int hf_payload_fragment_overlap_conflicts; static int hf_payload_fragment_multiple_tails; static int hf_payload_fragment_too_long_fragment; static int hf_payload_fragment_error; static int hf_payload_fragment_count; static int hf_payload_reassembled_in; static int hf_payload_reassembled_length; static int hf_payload_reassembled_data; static int ett_payload_fragment; static int ett_payload_fragments; /// Field definitions static hf_register_info fields[] = { {&hf_bundle_head, {"Indefinite Array", "bpv7.bundle_head", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_bundle_break, {"Indefinite Break", "bpv7.bundle_break", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_block, {"Block", "bpv7.block", FT_PROTOCOL, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_crc_type, {"CRC Type", "bpv7.crc_type", FT_UINT64, BASE_DEC | BASE_VAL64_STRING, VALS64(crc_vals), 0x0, NULL, HFILL}}, {&hf_crc_field_uint16, {"CRC Field Integer", "bpv7.crc_field", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL}}, {&hf_crc_field_uint32, {"CRC field Integer", "bpv7.crc_field", FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL}}, {&hf_crc_status, {"CRC Status", "bpv7.crc_status", FT_UINT8, BASE_NONE, VALS(proto_checksum_vals), 0x0, NULL, HFILL}}, {&hf_time_dtntime, {"DTN Time", "bpv7.time.dtntime", FT_UINT64, BASE_DEC | BASE_UNIT_STRING, UNS(&units_milliseconds), 0x0, NULL, HFILL}}, {&hf_time_utctime, {"UTC Time", "bpv7.time.utctime", FT_ABSOLUTE_TIME, ABSOLUTE_TIME_UTC, NULL, 0x0, NULL, HFILL}}, {&hf_create_ts_time, {"Time", "bpv7.create_ts.time", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_create_ts_seqno, {"Sequence Number", "bpv7.create_ts.seqno", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_eid_scheme, {"Scheme Code", "bpv7.eid.scheme", FT_UINT64, BASE_DEC | BASE_VAL64_STRING, VALS64(eid_schemes), 0x0, NULL, HFILL}}, {&hf_eid_dtn_ssp_code, {"DTN SSP", "bpv7.eid.dtn_ssp_code", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_eid_dtn_ssp_text, {"DTN SSP", "bpv7.eid.dtn_ssp_text", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_eid_ipn_node, {"IPN Node Number", "bpv7.eid.ipn_node", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_eid_ipn_service, {"IPN Service Number", "bpv7.eid.ipn_service", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_eid_dtn_wkssp, {"Well-known SSP", "bpv7.eid.wkssp", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_eid_dtn_serv, {"Service Name", "bpv7.eid.serv", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_primary_version, {"Version", "bpv7.primary.version", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_primary_bundle_flags, {"Bundle Flags", "bpv7.primary.bundle_flags", FT_UINT64, BASE_HEX, NULL, 0x0, NULL, HFILL}}, {&hf_primary_bundle_flags_is_fragment, {"Bundle is a fragment", "bpv7.primary.bundle_flags.is_fragment", FT_BOOLEAN, 24, TFS(&tfs_set_notset), BP_BUNDLE_IS_FRAGMENT, NULL, HFILL}}, {&hf_primary_bundle_flags_payload_admin, {"Payload is an administrative record", "bpv7.primary.bundle_flags.payload_admin", FT_BOOLEAN, 24, TFS(&tfs_set_notset), BP_BUNDLE_PAYLOAD_ADMIN, NULL, HFILL}}, {&hf_primary_bundle_flags_no_fragment, {"Bundle must not be fragmented", "bpv7.primary.bundle_flags.no_fragment", FT_BOOLEAN, 24, TFS(&tfs_set_notset), BP_BUNDLE_NO_FRAGMENT, NULL, HFILL}}, {&hf_primary_bundle_flags_user_app_ack, {"Acknowledgement by application is requested", "bpv7.primary.bundle_flags.user_app_ack", FT_BOOLEAN, 24, TFS(&tfs_set_notset), BP_BUNDLE_USER_APP_ACK, NULL, HFILL}}, {&hf_primary_bundle_flags_req_status_time, {"Status time requested in reports", "bpv7.primary.bundle_flags.req_status_time", FT_BOOLEAN, 24, TFS(&tfs_set_notset), BP_BUNDLE_REQ_STATUS_TIME, NULL, HFILL}}, {&hf_primary_bundle_flags_reception_report, {"Request reporting of bundle reception", "bpv7.primary.bundle_flags.reception_report", FT_BOOLEAN, 24, TFS(&tfs_set_notset), BP_BUNDLE_REQ_RECEPTION_REPORT, NULL, HFILL}}, {&hf_primary_bundle_flags_forwarding_report, {"Request reporting of bundle forwarding", "bpv7.primary.bundle_flags.forwarding_report", FT_BOOLEAN, 24, TFS(&tfs_set_notset), BP_BUNDLE_REQ_FORWARDING_REPORT, NULL, HFILL}}, {&hf_primary_bundle_flags_delivery_report, {"Request reporting of bundle delivery", "bpv7.primary.bundle_flags.delivery_report", FT_BOOLEAN, 24, TFS(&tfs_set_notset), BP_BUNDLE_REQ_DELIVERY_REPORT, NULL, HFILL}}, {&hf_primary_bundle_flags_deletion_report, {"Request reporting of bundle deletion", "bpv7.primary.bundle_flags.deletion_report", FT_BOOLEAN, 24, TFS(&tfs_set_notset), BP_BUNDLE_REQ_DELETION_REPORT, NULL, HFILL}}, {&hf_primary_dst_eid, {"Destination Endpoint ID", "bpv7.primary.dst_eid", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_primary_dst_uri, {"Destination URI", "bpv7.primary.dst_uri", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_primary_src_nodeid, {"Source Node ID", "bpv7.primary.src_nodeid", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_primary_src_uri, {"Source URI", "bpv7.primary.src_uri", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_primary_srcdst_uri, {"Source or Destination URI", "bpv7.primary.srcdst_uri", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_primary_report_nodeid, {"Report-to Node ID", "bpv7.primary.report_nodeid", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_primary_report_uri, {"Report-to URI", "bpv7.primary.report_uri", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_primary_create_ts, {"Creation Timestamp", "bpv7.primary.create_ts", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_primary_lifetime, {"Lifetime", "bpv7.primary.lifetime", FT_UINT64, BASE_DEC | BASE_UNIT_STRING, UNS(&units_milliseconds), 0x0, NULL, HFILL}}, {&hf_primary_lifetime_exp, {"Lifetime Expanded", "bpv7.primary.lifetime_exp", FT_RELATIVE_TIME, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_primary_expire_ts, {"Expire Time", "bpv7.primary.expire_time", FT_ABSOLUTE_TIME, ABSOLUTE_TIME_UTC, NULL, 0x0, NULL, HFILL}}, {&hf_primary_frag_offset, {"Fragment Offset", "bpv7.primary.frag_offset", FT_UINT64, BASE_DEC | BASE_UNIT_STRING, UNS(&units_octet_octets), 0x0, NULL, HFILL}}, {&hf_primary_total_length, {"Total Application Data Unit Length", "bpv7.primary.total_len", FT_UINT64, BASE_DEC | BASE_UNIT_STRING, UNS(&units_octet_octets), 0x0, NULL, HFILL}}, {&hf_bundle_ident, {"Bundle Identity", "bpv7.bundle.identity", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_bundle_first_seen, {"First Seen", "bpv7.bundle.first_seen", FT_FRAMENUM, BASE_NONE, FRAMENUM_TYPE(FT_FRAMENUM_RETRANS_PREV), 0x0, NULL, HFILL}}, {&hf_bundle_retrans_seen, {"Retransmit Seen", "bpv7.bundle.retransmit_seen", FT_FRAMENUM, BASE_NONE, FRAMENUM_TYPE(FT_FRAMENUM_RETRANS_NEXT), 0x0, NULL, HFILL}}, {&hf_bundle_seen_time_diff, {"Seen Time", "bpv7.bundle.seen_time_diff", FT_RELATIVE_TIME, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_bundle_dst_dtn_srv, {"Destination Service", "bpv7.bundle.dst_dtn_srv", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_bundle_dst_ipn_srv, {"Destination Service", "bpv7.bundle.dst_ipn_srv", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_bundle_status_ref, {"Status Bundle", "bpv7.bundle.status_ref", FT_FRAMENUM, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_canonical_type_code, {"Type Code", "bpv7.canonical.type_code", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_canonical_block_num, {"Block Number", "bpv7.canonical.block_num", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_canonical_block_flags, {"Block Flags", "bpv7.canonical.block_flags", FT_UINT64, BASE_HEX, NULL, 0x0, NULL, HFILL}}, {&hf_canonical_block_flags_replicate_in_fragment, {"Replicate block in fragment", "bpv7.canonical.block_flags.replicate_in_fragment", FT_BOOLEAN, 8, TFS(&tfs_set_notset), BP_BLOCK_REPLICATE_IN_FRAGMENT, NULL, HFILL}}, {&hf_canonical_block_flags_status_no_process, {"Status bundle if not processed", "bpv7.canonical.block_flags.status_if_no_process", FT_BOOLEAN, 8, TFS(&tfs_set_notset), BP_BLOCK_STATUS_IF_NO_PROCESS, NULL, HFILL}}, {&hf_canonical_block_flags_delete_no_process, {"Delete bundle if not processed", "bpv7.canonical.block_flags.delete_if_no_process", FT_BOOLEAN, 8, TFS(&tfs_set_notset), BP_BLOCK_DELETE_IF_NO_PROCESS, NULL, HFILL}}, {&hf_canonical_block_flags_remove_no_process, {"Discard block if not processed", "bpv7.canonical.block_flags.discard_if_no_process", FT_BOOLEAN, 8, TFS(&tfs_set_notset), BP_BLOCK_REMOVE_IF_NO_PROCESS, NULL, HFILL}}, {&hf_canonical_data_size, {"Block Type-Specific Data Length", "bpv7.canonical.data_length", FT_UINT64, BASE_DEC | BASE_UNIT_STRING, UNS(&units_octet_octets), 0x0, NULL, HFILL}}, {&hf_canonical_data, {"Block Type-Specific Data", "bpv7.canonical.data", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_payload_fragments, {"Payload fragments", "bpv7.payload.fragments", FT_NONE, BASE_NONE, NULL, 0x00, NULL, HFILL } }, {&hf_payload_fragment, {"Payload fragment", "bpv7.payload.fragment", FT_FRAMENUM, BASE_NONE, NULL, 0x00, NULL, HFILL } }, {&hf_payload_fragment_overlap, {"Payload fragment overlap", "bpv7.payload.fragment.overlap", FT_BOOLEAN, BASE_NONE, NULL, 0x00, NULL, HFILL } }, {&hf_payload_fragment_overlap_conflicts, {"Payload fragment overlapping with conflicting data", "bpv7.payload.fragment.overlap.conflicts", FT_BOOLEAN, BASE_NONE, NULL, 0x00, NULL, HFILL } }, {&hf_payload_fragment_multiple_tails, {"Message has multiple tail fragments", "bpv7.payload.fragment.multiple_tails", FT_BOOLEAN, BASE_NONE, NULL, 0x00, NULL, HFILL } }, {&hf_payload_fragment_too_long_fragment, {"Payload fragment too long", "bpv7.payload.fragment.too_long_fragment", FT_BOOLEAN, BASE_NONE, NULL, 0x00, NULL, HFILL } }, {&hf_payload_fragment_error, {"Payload defragmentation error", "bpv7.payload.fragment.error", FT_FRAMENUM, BASE_NONE, NULL, 0x00, NULL, HFILL } }, {&hf_payload_fragment_count, {"Payload fragment count", "bpv7.payload.fragment.count", FT_UINT32, BASE_DEC, NULL, 0x00, NULL, HFILL } }, {&hf_payload_reassembled_in, {"Reassembled in", "bpv7.payload.reassembled.in", FT_FRAMENUM, BASE_NONE, NULL, 0x00, NULL, HFILL } }, {&hf_payload_reassembled_length, {"Reassembled length", "bpv7.payload.reassembled.length", FT_UINT32, BASE_DEC, NULL, 0x00, NULL, HFILL } }, {&hf_payload_reassembled_data, {"Reassembled data", "bpv7.payload.reassembled.data", FT_BYTES, BASE_NONE, NULL, 0x00, NULL, HFILL } }, {&hf_previous_node_nodeid, {"Previous Node ID", "bpv7.previous_node.nodeid", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_previous_node_uri, {"Previous URI", "bpv7.previous_node.uri", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_bundle_age_time, {"Bundle Age", "bpv7.bundle_age.time", FT_UINT64, BASE_DEC | BASE_UNIT_STRING, UNS(&units_milliseconds), 0x0, NULL, HFILL}}, {&hf_hop_count_limit, {"Hop Limit", "bpv7.hop_count.limit", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_hop_count_current, {"Hop Count", "bpv7.hop_count.current", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_admin_record_type, {"Record Type Code", "bpv7.admin_rec.type_code", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep, {"Status Report", "bpv7.status_rep", FT_PROTOCOL, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep_status_info, {"Status Information", "bpv7.status_rep.status_info", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_status_assert_val, {"Status Value", "bpv7.status_assert.val", FT_BOOLEAN, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_status_assert_time, {"Status at", "bpv7.status_assert.time", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep_received, {"Reporting node received bundle", "bpv7.status_rep.received", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep_forwarded, {"Reporting node forwarded bundle", "bpv7.status_rep.forwarded", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep_delivered, {"Reporting node delivered bundle", "bpv7.status_rep.delivered", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep_deleted, {"Reporting node deleted bundle", "bpv7.status_rep.deleted", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep_reason_code, {"Reason Code", "bpv7.status_rep.reason_code", FT_UINT64, BASE_DEC | BASE_VAL64_STRING, VALS64(status_report_reason_vals), 0x0, NULL, HFILL}}, {&hf_status_rep_subj_src_nodeid, {"Subject Source Node ID", "bpv7.status_rep.subj_src_nodeid", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep_subj_src_uri, {"Subject Source URI", "bpv7.status_rep.subj_src_uri", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep_subj_ts, {"Subject Creation Timestamp", "bpv7.status_rep.subj_ts", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep_subj_frag_offset, {"Subject Fragment Offset", "bpv7.status_rep.subj_frag_offset", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep_subj_payload_len, {"Subject Payload Length", "bpv7.status_rep.subj_payload_len", FT_UINT64, BASE_DEC, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep_subj_ident, {"Subject Identity", "bpv7.status_rep.identity", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL}}, {&hf_status_rep_subj_ref, {"Subject Bundle", "bpv7.status_rep.subj_ref", FT_FRAMENUM, BASE_NONE, FRAMENUM_TYPE(FT_FRAMENUM_ACK), 0x0, NULL, HFILL}}, {&hf_status_time_diff, {"Status Time", "bpv7.status_rep.subj_time_diff", FT_RELATIVE_TIME, BASE_NONE, NULL, 0x0, NULL, HFILL}}, }; static int *const bundle_flags[] = { &hf_primary_bundle_flags_deletion_report, &hf_primary_bundle_flags_delivery_report, &hf_primary_bundle_flags_forwarding_report, &hf_primary_bundle_flags_reception_report, &hf_primary_bundle_flags_req_status_time, &hf_primary_bundle_flags_user_app_ack, &hf_primary_bundle_flags_no_fragment, &hf_primary_bundle_flags_payload_admin, &hf_primary_bundle_flags_is_fragment, NULL }; static int *const block_flags[] = { &hf_canonical_block_flags_remove_no_process, &hf_canonical_block_flags_delete_no_process, &hf_canonical_block_flags_status_no_process, &hf_canonical_block_flags_replicate_in_fragment, NULL }; static int ett_bundle; static int ett_bundle_flags; static int ett_block; static int ett_eid; static int ett_time; static int ett_create_ts; static int ett_ident; static int ett_block_flags; static int ett_canonical_data; static int ett_payload; static int ett_admin; static int ett_status_rep; static int ett_status_info; static int ett_status_assert; /// Tree structures static int *ett[] = { &ett_bundle, &ett_bundle_flags, &ett_block, &ett_eid, &ett_time, &ett_create_ts, &ett_ident, &ett_block_flags, &ett_canonical_data, &ett_payload, &ett_admin, &ett_status_rep, &ett_status_info, &ett_status_assert, &ett_payload_fragment, &ett_payload_fragments, }; static const fragment_items payload_frag_items = { /* Fragment subtrees */ &ett_payload_fragment, &ett_payload_fragments, /* Fragment fields */ &hf_payload_fragments, &hf_payload_fragment, &hf_payload_fragment_overlap, &hf_payload_fragment_overlap_conflicts, &hf_payload_fragment_multiple_tails, &hf_payload_fragment_too_long_fragment, &hf_payload_fragment_error, &hf_payload_fragment_count, /* Reassembled in field */ &hf_payload_reassembled_in, &hf_payload_reassembled_length, &hf_payload_reassembled_data, /* Tag */ "Payload fragments" }; static expert_field ei_invalid_framing; static expert_field ei_invalid_bp_version; static expert_field ei_eid_scheme_unknown; static expert_field ei_eid_ssp_type_invalid; static expert_field ei_eid_wkssp_unknown; static expert_field ei_block_type_dupe; static expert_field ei_sub_type_unknown; static expert_field ei_sub_partial_decode; static expert_field ei_crc_type_unknown; static expert_field ei_block_failed_crc; static expert_field ei_block_num_dupe; static expert_field ei_block_payload_index; static expert_field ei_block_payload_num; static expert_field ei_fragment_reassemble_size; static expert_field ei_fragment_tot_mismatch; static expert_field ei_block_sec_bib_tgt; static expert_field ei_block_sec_bcb_tgt; static ei_register_info expertitems[] = { {&ei_invalid_framing, {"bpv7.invalid_framing", PI_MALFORMED, PI_WARN, "Invalid framing", EXPFILL}}, {&ei_invalid_bp_version, {"bpv7.invalid_bp_version", PI_MALFORMED, PI_ERROR, "Invalid BP version", EXPFILL}}, {&ei_eid_scheme_unknown, {"bpv7.eid_scheme_unknown", PI_UNDECODED, PI_WARN, "Unknown Node ID scheme code", EXPFILL}}, {&ei_eid_ssp_type_invalid, {"bpv7.eid_ssp_type_invalid", PI_UNDECODED, PI_WARN, "Invalid scheme-specific part major type", EXPFILL}}, {&ei_eid_wkssp_unknown, {"bpv7.eid_wkssp_unknown", PI_UNDECODED, PI_WARN, "Unknown well-known scheme-specific code point", EXPFILL}}, {&ei_block_type_dupe, {"bpv7.block_type_dupe", PI_PROTOCOL, PI_WARN, "Too many blocks of this type", EXPFILL}}, {&ei_sub_type_unknown, {"bpv7.sub_type_unknown", PI_UNDECODED, PI_WARN, "Unknown type code", EXPFILL}}, {&ei_sub_partial_decode, {"bpv7.sub_partial_decode", PI_UNDECODED, PI_WARN, "Data not fully dissected", EXPFILL}}, {&ei_crc_type_unknown, {"bpv7.crc_type_unknown", PI_UNDECODED, PI_WARN, "Unknown CRC Type code", EXPFILL}}, {&ei_block_failed_crc, {"bpv7.block_failed_crc", PI_CHECKSUM, PI_WARN, "Block failed CRC", EXPFILL}}, {&ei_block_num_dupe, {"bpv7.block_num_dupe", PI_PROTOCOL, PI_WARN, "Duplicate block number", EXPFILL}}, {&ei_block_payload_index, {"bpv7.block_payload_index", PI_PROTOCOL, PI_WARN, "Payload must be the last block", EXPFILL}}, {&ei_block_payload_num, {"bpv7.block_payload_num", PI_PROTOCOL, PI_WARN, "Invalid payload block number", EXPFILL}}, {&ei_fragment_reassemble_size, {"bpv7.fragment_reassemble_size", PI_REASSEMBLE, PI_ERROR, "Cannot defragment this size (wireshark limitation)", EXPFILL}}, {&ei_fragment_tot_mismatch, {"bpv7.fragment_tot_mismatch", PI_REASSEMBLE, PI_ERROR, "Inconsistent total length between fragments", EXPFILL}}, {&ei_block_sec_bib_tgt, {"bpv7.bpsec.bib_target", PI_COMMENTS_GROUP, PI_COMMENT, "Block is an integrity target", EXPFILL}}, {&ei_block_sec_bcb_tgt, {"bpv7.bpsec.bcb_target", PI_COMMENTS_GROUP, PI_COMMENT, "Block is a confidentiality target", EXPFILL}}, }; /** Delete an arbitrary object allocated under this file scope. * * @param ptr The object to delete. */ static void file_scope_delete(void *ptr) { wmem_free(wmem_file_scope(), ptr); } int bp_creation_ts_compare(const void *a, const void *b, void *user_data _U_) { const bp_creation_ts_t *ats = a; const bp_creation_ts_t *bts = b; if (ats->abstime.dtntime < bts->abstime.dtntime) { return -1; } else if (ats->abstime.dtntime > bts->abstime.dtntime) { return 1; } if (ats->seqno < bts->seqno) { return -1; } else if (ats->seqno > bts->seqno) { return 1; } return 0; } bp_eid_t * bp_eid_new(wmem_allocator_t *alloc) { bp_eid_t *obj = wmem_new0(alloc, bp_eid_t); clear_address(&(obj->uri)); return obj; } void bp_eid_free(wmem_allocator_t *alloc, bp_eid_t *obj) { wmem_free(alloc, (char *)(obj->dtn_wkssp)); wmem_free(alloc, (char *)(obj->dtn_serv)); wmem_free(alloc, (void *)(obj->ipn_serv)); wmem_free(alloc, obj); } bool bp_eid_equal(const void *a, const void *b) { const bp_eid_t *aobj = a; const bp_eid_t *bobj = b; return addresses_equal(&(aobj->uri), &(bobj->uri)); } bp_block_primary_t * bp_block_primary_new(wmem_allocator_t *alloc) { bp_block_primary_t *obj = wmem_new0(alloc, bp_block_primary_t); obj->dst_eid = bp_eid_new(alloc); obj->src_nodeid = bp_eid_new(alloc); obj->rep_nodeid = bp_eid_new(alloc); obj->frag_offset = NULL; obj->total_len = NULL; obj->sec.data_i = wmem_map_new(alloc, g_int64_hash, g_int64_equal); obj->sec.data_c = wmem_map_new(alloc, g_int64_hash, g_int64_equal); return obj; } void bp_block_primary_free(wmem_allocator_t *alloc, bp_block_primary_t *obj) { if (!obj) { return; } bp_eid_free(alloc, obj->dst_eid); bp_eid_free(alloc, obj->src_nodeid); bp_eid_free(alloc, obj->rep_nodeid); wmem_free(alloc, obj->frag_offset); wmem_free(alloc, obj->total_len); wmem_free(alloc, obj->sec.data_i); wmem_free(alloc, obj->sec.data_c); wmem_free(alloc, obj); } bp_block_canonical_t * bp_block_canonical_new(wmem_allocator_t *alloc, uint64_t blk_ix) { bp_block_canonical_t *obj = wmem_new0(alloc, bp_block_canonical_t); obj->blk_ix = blk_ix; obj->sec.data_i = wmem_map_new(alloc, g_int64_hash, g_int64_equal); obj->sec.data_c = wmem_map_new(alloc, g_int64_hash, g_int64_equal); return obj; } static uint64_t * uint64_new(wmem_allocator_t *alloc, const uint64_t val) { uint64_t *obj = wmem_new(alloc, uint64_t); *obj = val; return obj; } bp_bundle_t * bp_bundle_new(wmem_allocator_t *alloc) { bp_bundle_t *obj = wmem_new0(alloc, bp_bundle_t); obj->primary = bp_block_primary_new(alloc); obj->blocks = wmem_list_new(alloc); obj->block_nums = wmem_map_new(alloc, g_int64_hash, g_int64_equal); obj->block_types = wmem_map_new(alloc, g_int64_hash, g_int64_equal); return obj; } void bp_bundle_free(wmem_allocator_t *alloc, bp_bundle_t *obj) { bp_bundle_ident_free(alloc, obj->ident); bp_block_primary_free(alloc, obj->primary); wmem_destroy_list(obj->blocks); wmem_free(alloc, obj); } /** Function to match the GCompareFunc signature. */ static int bp_bundle_frameloc_compare(const void *a, const void *b) { const bp_bundle_t *aobj = a; const bp_bundle_t *bobj = b; if (aobj->frame_num < bobj->frame_num) { return -1; } if (aobj->frame_num > bobj->frame_num) { return 1; } if (aobj->layer_num < bobj->layer_num) { return -1; } if (aobj->layer_num > bobj->layer_num) { return 1; } return 0; } bp_bundle_ident_t * bp_bundle_ident_new(wmem_allocator_t *alloc, const bp_eid_t *src, const bp_creation_ts_t *ts, const uint64_t *off, const uint64_t *len) { DISSECTOR_ASSERT(src != NULL); DISSECTOR_ASSERT(ts != NULL); bp_bundle_ident_t *ident = wmem_new(alloc, bp_bundle_ident_t); copy_address_wmem(alloc, &(ident->src), &(src->uri)); ident->ts = *ts; ident->frag_offset = off; ident->total_len = len; return ident; } void bp_bundle_ident_free(wmem_allocator_t *alloc, bp_bundle_ident_t *obj) { wmem_free(alloc, obj); } /** Either both values are defined and equal or both are null. */ static bool optional_uint64_equal(const uint64_t *a, const uint64_t *b) { if (a && b) { return (*a == *b); } else { return (a == NULL) && (b == NULL); } } gboolean bp_bundle_ident_equal(const void *a, const void *b) { const bp_bundle_ident_t *aobj = a; const bp_bundle_ident_t *bobj = b; return ( addresses_equal(&(aobj->src), &(bobj->src)) && (aobj->ts.abstime.dtntime == bobj->ts.abstime.dtntime) && (aobj->ts.seqno == bobj->ts.seqno) && optional_uint64_equal(aobj->frag_offset, bobj->frag_offset) && optional_uint64_equal(aobj->total_len, bobj->total_len) ); } unsigned bp_bundle_ident_hash(const void *key) { const bp_bundle_ident_t *obj = key; return ( add_address_to_hash(0, &(obj->src)) ^ g_int64_hash(&(obj->ts.abstime.dtntime)) ^ g_int64_hash(&(obj->ts.seqno)) ); } /** Convert DTN time to time delta. * DTN Time is defined in Section 4.1.6. * * @param dtntime Number of milliseconds from an epoch. * @return The associated absolute time. */ static nstime_t dtn_to_delta(const int64_t dtntime) { nstime_t utctime; utctime.secs = dtntime / 1000; utctime.nsecs = 1000000 * (dtntime % 1000); return utctime; } /** Convert DTN time to absolute time. * DTN Time is defined in Section 4.1.6. * * @param dtntime Number of milliseconds from an epoch. * @return The associated absolute time. */ static nstime_t dtn_to_utctime(const int64_t dtntime) { nstime_t utctime; utctime.secs = 946684800 + dtntime / 1000; utctime.nsecs = 1000000 * (dtntime % 1000); return utctime; } proto_item * proto_tree_add_cbor_eid(proto_tree *tree, int hfindex, int hfindex_uri, packet_info *pinfo, tvbuff_t *tvb, int *offset, bp_eid_t *eid) { wmem_allocator_t *alloc_eid = wmem_file_scope(); proto_item *item_eid = proto_tree_add_item(tree, hfindex, tvb, *offset, -1, ENC_NA); proto_tree *tree_eid = proto_item_add_subtree(item_eid, ett_eid); const int eid_start = *offset; wscbor_chunk_t *chunk = wscbor_chunk_read(pinfo->pool, tvb, offset); wscbor_require_array_size(chunk, 2, 2); if (!chunk) { proto_item_set_len(item_eid, *offset - eid_start); return item_eid; } chunk = wscbor_chunk_read(pinfo->pool, tvb, offset); const uint64_t *scheme = wscbor_require_uint64(alloc_eid, chunk); proto_item *item_scheme = proto_tree_add_cbor_uint64(tree_eid, hf_eid_scheme, pinfo, tvb, chunk, scheme); if (!scheme) { wscbor_skip_next_item(pinfo->pool, tvb, offset); return item_eid; } wmem_strbuf_t *uribuf = wmem_strbuf_new(alloc_eid, NULL); const char *dtn_wkssp = NULL; const char *dtn_serv = NULL; uint64_t *ipn_serv = NULL; switch (*scheme) { case EID_SCHEME_DTN: { chunk = wscbor_chunk_read(pinfo->pool, tvb, offset); switch (chunk->type_major) { case CBOR_TYPE_UINT: { const uint64_t *ssp_code = wscbor_require_uint64(pinfo->pool, chunk); proto_item *item = proto_tree_add_cbor_uint64(tree_eid, hf_eid_dtn_ssp_code, pinfo, tvb, chunk, ssp_code); switch (*ssp_code) { case 0: dtn_wkssp = wmem_strdup(alloc_eid, "none"); break; default: expert_add_info(pinfo, item, &ei_eid_wkssp_unknown); break; } if (dtn_wkssp) { wmem_strbuf_append_printf(uribuf, "dtn:%s", dtn_wkssp); } break; } case CBOR_TYPE_STRING: { char *ssp = wscbor_require_tstr(pinfo->pool, chunk); proto_tree_add_cbor_tstr(tree_eid, hf_eid_dtn_ssp_text, pinfo, tvb, chunk); wmem_strbuf_append_printf(uribuf, "dtn:%s", ssp); char *path_sep; if ((path_sep = strrchr(ssp, '/')) != NULL) { dtn_serv = wmem_strdup(alloc_eid, path_sep + 1); } else { // no separator also means no authority part, so it's well-known dtn_wkssp = wmem_strdup(alloc_eid, ssp); } wmem_free(pinfo->pool, ssp); break; } default: { *offset = chunk->start; wscbor_skip_next_item(pinfo->pool, tvb, offset); tvbuff_t *sub_tvb = tvb_new_subset_length(tvb, chunk->start, *offset); call_dissector(handle_cbor, sub_tvb, pinfo, tree_eid); expert_add_info(pinfo, item_eid, &ei_eid_ssp_type_invalid); break; } } break; } case EID_SCHEME_IPN: { chunk = wscbor_chunk_read(pinfo->pool, tvb, offset); wscbor_require_array_size(chunk, 2, 2); if (!wscbor_skip_if_errors(pinfo->pool, tvb, offset, chunk)) { chunk = wscbor_chunk_read(pinfo->pool, tvb, offset); const uint64_t *node = wscbor_require_uint64(pinfo->pool, chunk); proto_tree_add_cbor_uint64(tree_eid, hf_eid_ipn_node, pinfo, tvb, chunk, node); chunk = wscbor_chunk_read(pinfo->pool, tvb, offset); ipn_serv = wscbor_require_uint64(wmem_file_scope(), chunk); proto_tree_add_cbor_uint64(tree_eid, hf_eid_ipn_service, pinfo, tvb, chunk, ipn_serv); wmem_strbuf_append_printf(uribuf, "ipn:%" PRIu64 ".%" PRIu64, node ? *node : 0, ipn_serv ? *ipn_serv : 0); } break; } default: wscbor_skip_next_item(pinfo->pool, tvb, offset); expert_add_info(pinfo, item_scheme, &ei_eid_scheme_unknown); break; } if (dtn_wkssp) { proto_item *item = proto_tree_add_string(tree_eid, hf_eid_dtn_wkssp, tvb, eid_start, *offset - eid_start, dtn_wkssp); proto_item_set_generated(item); } if (dtn_serv) { proto_item *item = proto_tree_add_string(tree_eid, hf_eid_dtn_serv, tvb, eid_start, *offset - eid_start, dtn_serv); proto_item_set_generated(item); } char *uri = NULL; if (wmem_strbuf_get_len(uribuf) > 0) { uri = wmem_strbuf_finalize(uribuf); proto_item *item_uri = proto_tree_add_string(tree_eid, hfindex_uri, tvb, eid_start, *offset - eid_start, uri); proto_item_set_generated(item_uri); proto_item_append_text(item_eid, ": %s", uri); } if (eid) { eid->scheme = (scheme ? *scheme : 0); if (uri) { set_address(&(eid->uri), AT_STRINGZ, (int)strlen(uri) + 1, uri); } else { clear_address(&(eid->uri)); } eid->dtn_wkssp = dtn_wkssp; eid->dtn_serv = dtn_serv; eid->ipn_serv = ipn_serv; } else { file_scope_delete(uri); file_scope_delete((char *)dtn_wkssp); file_scope_delete((char *)dtn_serv); file_scope_delete(ipn_serv); } proto_item_set_len(item_eid, *offset - eid_start); return item_eid; } static void dissect_dtn_time(proto_tree *tree, int hfindex, packet_info *pinfo, tvbuff_t *tvb, int *offset, bp_dtn_time_t *out) { proto_item *item_time = proto_tree_add_item(tree, hfindex, tvb, *offset, -1, ENC_NA); proto_tree *tree_time = proto_item_add_subtree(item_time, ett_time); const int offset_start = *offset; wscbor_chunk_t *chunk = wscbor_chunk_read(pinfo->pool, tvb, offset); if (chunk) { const uint64_t *dtntime = wscbor_require_uint64(pinfo->pool, chunk); proto_tree_add_cbor_uint64(tree_time, hf_time_dtntime, pinfo, tvb, chunk, dtntime); if (dtntime) { if (out) { out->dtntime = *dtntime; } if (*dtntime > 0) { const nstime_t utctime = dtn_to_utctime(*dtntime); proto_item *item_utctime = proto_tree_add_time(tree_time, hf_time_utctime, tvb, chunk->start, chunk->data_length, &utctime); proto_item_set_generated(item_utctime); char *time_text = abs_time_to_str(pinfo->pool, &utctime, ABSOLUTE_TIME_UTC, true); proto_item_append_text(item_time, ": %s", time_text); if (out) { out->utctime = utctime; } } else { proto_item_append_text(item_time, ": undefined"); } } else if (out) { out->dtntime = 0; nstime_set_zero(&(out->utctime)); } } proto_item_set_len(item_time, *offset - offset_start); } /** Extract a timestamp. * * @param tree The tree to write items under. * @param hfindex The root item field. * @param pinfo Packet info to update. * @param tvb Buffer to read from. * @param[in,out] offset Starting offset within @c tvb. * @param[out] ts If non-null, the timestamp to write to. */ static void dissect_cbor_timestamp(proto_tree *tree, int hfindex, packet_info *pinfo, tvbuff_t *tvb, int *offset, bp_creation_ts_t *ts) { proto_item *item_ts = proto_tree_add_item(tree, hfindex, tvb, *offset, -1, ENC_NA); proto_tree *tree_ts = proto_item_add_subtree(item_ts, ett_create_ts); wscbor_chunk_t *chunk_ts = wscbor_chunk_read(pinfo->pool, tvb, offset); wscbor_require_array_size(chunk_ts, 2, 2); wscbor_chunk_mark_errors(pinfo, item_ts, chunk_ts); if (!wscbor_skip_if_errors(pinfo->pool, tvb, offset, chunk_ts)) { bp_dtn_time_t abstime; dissect_dtn_time(tree_ts, hf_create_ts_time, pinfo, tvb, offset, &abstime); wscbor_chunk_t *chunk = wscbor_chunk_read(pinfo->pool, tvb, offset); const uint64_t *seqno = wscbor_require_uint64(wmem_file_scope(), chunk); proto_tree_add_cbor_uint64(tree_ts, hf_create_ts_seqno, pinfo, tvb, chunk, seqno); if (ts) { ts->abstime = abstime; ts->seqno = (seqno ? *seqno : 0); } } proto_item_set_len(item_ts, *offset - chunk_ts->start); } /** Label type-field items with sub-dissector name. * This is similar to using val64_string labels but based on dissector name. * * @param type_code The dissected value, which must not be null. * @param type_dissect The associated sub-dissector, which may be null. * @param[in,out] item_type The item associated with the type field. * @param[in,out] item_parent The parent item to label. */ static void label_type_field(const uint64_t *type_code, dissector_handle_t type_dissect, proto_item *item_type, proto_item *item_parent) { if (!item_type || !item_parent) { return; } const char *type_name = dissector_handle_get_description(type_dissect); if (type_name) { proto_item_append_text(item_parent, ": %s", type_name); } else { proto_item_append_text(item_parent, ": Type %" PRIu64, *type_code); type_name = "Unknown"; } proto_item_set_text(item_type, "%s: %s (%" PRIu64 ")", PITEM_FINFO(item_type)->hfinfo->name, type_name, *type_code); } /** Show read-in and actual CRC information. * * @param tvb The single-block data. * @param crc_type Type of CRC to compute. * @param crc_field The read-in field value. */ static void show_crc_info(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree_block, const uint64_t *crc_type, tvbuff_t *crc_field) { if (!crc_type || !crc_field) { return; } // Display the data field information int hf_crc_field; switch (*crc_type) { case BP_CRC_16: hf_crc_field = hf_crc_field_uint16; break; case BP_CRC_32: hf_crc_field = hf_crc_field_uint32; break; default: hf_crc_field = -1; break; } // Compare against expected result uint32_t crc_actual = 0; unsigned chksum_flags = PROTO_CHECKSUM_NO_FLAGS; if (bp_compute_crc) { if (*crc_type == BP_CRC_NONE) { chksum_flags |= PROTO_CHECKSUM_NOT_PRESENT; } else { const unsigned block_len = tvb_reported_length(tvb); uint8_t *crcbuf = tvb_memdup(pinfo->pool, tvb, 0, block_len); switch (*crc_type) { case BP_CRC_16: memset(crcbuf + block_len - 2, 0, 2); crc_actual = crc16_ccitt(crcbuf, block_len); break; case BP_CRC_32: memset(crcbuf + block_len - 4, 0, 4); crc_actual = ~crc32c_calculate_no_swap(crcbuf, block_len, CRC32C_PRELOAD); break; default: break; } wmem_free(pinfo->pool, crcbuf); chksum_flags |= PROTO_CHECKSUM_VERIFY; } } proto_tree_add_checksum(tree_block, crc_field, 0, hf_crc_field, hf_crc_status, &ei_block_failed_crc, pinfo, crc_actual, ENC_BIG_ENDIAN, chksum_flags); } static proto_item * proto_tree_add_ident(packet_info *pinfo, proto_tree *tree, int hfindex, tvbuff_t *tvb, const bp_bundle_ident_t *ident) { wmem_strbuf_t *ident_text = wmem_strbuf_new(pinfo->pool, NULL); wmem_strbuf_append_printf( ident_text, "Source: %s, DTN Time: %" PRIu64 ", Seq: %" PRIu64, address_to_name(&(ident->src)), ident->ts.abstime.dtntime, ident->ts.seqno ); if (ident->frag_offset) { wmem_strbuf_append_printf(ident_text, ", Frag Offset: %" PRIu64, *(ident->frag_offset)); } if (ident->total_len) { wmem_strbuf_append_printf(ident_text, ", Total Length: %" PRIu64, *(ident->total_len)); } proto_item *item_ident = proto_tree_add_string(tree, hfindex, tvb, 0, 0, wmem_strbuf_get_str(ident_text)); proto_item_set_generated(item_ident); wmem_strbuf_finalize(ident_text); return item_ident; } static int dissect_block_primary(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree_block, int start, bp_block_primary_t *block, bp_bundle_t *bundle _U_) { proto_item *item_block = proto_tree_get_parent(tree_block); int field_ix = 0; int offset = start; block->item_block = item_block; wscbor_chunk_t *chunk_block = wscbor_chunk_read(pinfo->pool, tvb, &offset); wscbor_require_array_size(chunk_block, 8, 11); wscbor_chunk_mark_errors(pinfo, item_block, chunk_block); if (wscbor_skip_if_errors(pinfo->pool, tvb, &offset, chunk_block)) { return offset - start; } #if 0 proto_item_append_text(item_block, ", Items: %" PRIu64, chunk_block->head_value); #endif wscbor_chunk_t *chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); const uint64_t *version = wscbor_require_uint64(pinfo->pool, chunk); proto_item *item_version = proto_tree_add_cbor_uint64(tree_block, hf_primary_version, pinfo, tvb, chunk, version); field_ix++; if (version && (*version != 7)) { expert_add_info(pinfo, item_version, &ei_invalid_bp_version); } chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); const uint64_t *flags = wscbor_require_uint64(pinfo->pool, chunk); proto_tree_add_cbor_bitmask(tree_block, hf_primary_bundle_flags, ett_bundle_flags, bundle_flags, pinfo, tvb, chunk, flags); field_ix++; block->flags = (flags ? *flags : 0); chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); uint64_t *crc_type = wscbor_require_uint64(pinfo->pool, chunk); proto_item *item_crc_type = proto_tree_add_cbor_uint64(tree_block, hf_crc_type, pinfo, tvb, chunk, crc_type); field_ix++; block->crc_type = (crc_type ? *crc_type : BP_CRC_NONE); if (crc_type) { proto_item_append_text(item_block, ", CRC Type: %s", val64_to_str(*crc_type, crc_vals, "%" PRIu64)); } proto_tree_add_cbor_eid(tree_block, hf_primary_dst_eid, hf_primary_dst_uri, pinfo, tvb, &offset, block->dst_eid); field_ix++; if (block->dst_eid->uri.type != AT_NONE) { proto_item_set_hidden( proto_tree_add_string(tree_block, hf_primary_srcdst_uri, tvb, 0, 0, address_to_name(&(block->dst_eid->uri))) ); } proto_tree_add_cbor_eid(tree_block, hf_primary_src_nodeid, hf_primary_src_uri, pinfo, tvb, &offset, block->src_nodeid); field_ix++; if (block->src_nodeid->uri.type != AT_NONE) { proto_item_set_hidden( proto_tree_add_string(tree_block, hf_primary_srcdst_uri, tvb, 0, 0, address_to_name(&(block->src_nodeid->uri))) ); } proto_tree_add_cbor_eid(tree_block, hf_primary_report_nodeid, hf_primary_report_uri, pinfo, tvb, &offset, block->rep_nodeid); field_ix++; // Complex type dissect_cbor_timestamp(tree_block, hf_primary_create_ts, pinfo, tvb, &offset, &(block->ts)); field_ix++; chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); const uint64_t *lifetime = wscbor_require_uint64(pinfo->pool, chunk); proto_tree_add_cbor_uint64(tree_block, hf_primary_lifetime, pinfo, tvb, chunk, lifetime); if (lifetime) { nstime_t lifetime_exp = dtn_to_delta(*lifetime); proto_item *item_lifetime_exp = proto_tree_add_time(tree_block, hf_primary_lifetime_exp, tvb, chunk->start, chunk->head_length, &lifetime_exp); proto_item_set_generated(item_lifetime_exp); if (block->ts.abstime.dtntime > 0) { nstime_t expiretime; nstime_sum(&expiretime, &(block->ts.abstime.utctime), &lifetime_exp); proto_item *item_expiretime = proto_tree_add_time(tree_block, hf_primary_expire_ts, tvb, 0, 0, &expiretime); proto_item_set_generated(item_expiretime); } } field_ix++; // optional items if (flags && (*flags & BP_BUNDLE_IS_FRAGMENT)) { if (!wscbor_require_array_size(chunk_block, field_ix + 1, field_ix + 3)) { // Skip whole array offset = start; wscbor_skip_next_item(pinfo->pool, tvb, &offset); return offset - start; } chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); block->frag_offset = wscbor_require_uint64(wmem_file_scope(), chunk); proto_tree_add_cbor_uint64(tree_block, hf_primary_frag_offset, pinfo, tvb, chunk, block->frag_offset); field_ix++; chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); block->total_len = wscbor_require_uint64(wmem_file_scope(), chunk); proto_tree_add_cbor_uint64(tree_block, hf_primary_total_length, pinfo, tvb, chunk, block->total_len); field_ix++; } switch (block->crc_type) { case BP_CRC_NONE: break; case BP_CRC_16: case BP_CRC_32: { if (!wscbor_require_array_size(chunk_block, field_ix + 1, field_ix + 1)) { // Skip whole array offset = start; wscbor_skip_next_item(pinfo->pool, tvb, &offset); return offset - start; } chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); tvbuff_t *crc_field = wscbor_require_bstr(wmem_file_scope(), chunk); field_ix++; block->crc_field = crc_field; tvbuff_t *tvb_block = tvb_new_subset_length(tvb, start, offset - start); show_crc_info(tvb_block, pinfo, tree_block, crc_type, crc_field); break; } default: expert_add_info(pinfo, item_crc_type, &ei_crc_type_unknown); break; } return offset - start; } static int dissect_block_canonical(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree_block, int start, bp_block_canonical_t *block, bp_bundle_t *bundle _U_) { proto_item *item_block = proto_tree_get_parent(tree_block); int field_ix = 0; int offset = start; block->item_block = item_block; wscbor_chunk_t *chunk_block = wscbor_chunk_read(pinfo->pool, tvb, &offset); wscbor_require_array_size(chunk_block, 5, 6); wscbor_chunk_mark_errors(pinfo, item_block, chunk_block); if (wscbor_skip_if_errors(pinfo->pool, tvb, &offset, chunk_block)) { return offset - start; } #if 0 proto_item_append_text(item_block, ", Items: %" PRIu64, chunk_block->head_value); #endif wscbor_chunk_t *chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); uint64_t *type_code = wscbor_require_uint64(wmem_file_scope(), chunk); proto_item *item_type = proto_tree_add_cbor_uint64(tree_block, hf_canonical_type_code, pinfo, tvb, chunk, type_code); field_ix++; block->type_code = type_code; if (type_code) { dissector_handle_t type_dissect = dissector_get_custom_table_handle(block_dissectors, type_code); label_type_field(type_code, type_dissect, item_type, item_block); // Check duplicate of this type uint64_t limit = UINT64_MAX; for (int ix = 0; ; ++ix) { const blocktype_limit *row = blocktype_limits + ix; if (row->type_code == BP_BLOCKTYPE_INVALID) { break; } if (row->type_code == *type_code) { limit = row->limit; break; } } uint64_t count = 1; // this block counts regardless of presence in the map wmem_list_t *list_found = wmem_map_lookup(bundle->block_types, type_code); if (list_found) { for (wmem_list_frame_t *it = wmem_list_head(list_found); it; it = wmem_list_frame_next(it)) { bp_block_canonical_t *block_found = wmem_list_frame_data(it); if (block == block_found) { continue; } ++count; } } if (count > limit) { // First non-identical block triggers the error expert_add_info(pinfo, item_type, &ei_block_type_dupe); } } chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); uint64_t *block_num = wscbor_require_uint64(wmem_file_scope(), chunk); proto_item *item_block_num = proto_tree_add_cbor_uint64(tree_block, hf_canonical_block_num, pinfo, tvb, chunk, block_num); field_ix++; block->block_number = block_num; if (block_num) { proto_item_append_text(item_block, ", Block Num: %" PRIu64, *block_num); } chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); const uint64_t *flags = wscbor_require_uint64(wmem_file_scope(), chunk); proto_tree_add_cbor_bitmask(tree_block, hf_canonical_block_flags, ett_block_flags, block_flags, pinfo, tvb, chunk, flags); field_ix++; block->flags = (flags ? *flags : 0); chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); uint64_t *crc_type = wscbor_require_uint64(wmem_file_scope(), chunk); proto_item *item_crc_type = proto_tree_add_cbor_uint64(tree_block, hf_crc_type, pinfo, tvb, chunk, crc_type); field_ix++; block->crc_type = (crc_type ? *crc_type : BP_CRC_NONE); if (crc_type) { proto_item_append_text(item_block, ", CRC Type: %s", val64_to_str(*crc_type, crc_vals, "%" PRIu64)); } chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); tvbuff_t *tvb_data = wscbor_require_bstr(wmem_file_scope(), chunk); field_ix++; block->data = tvb_data; proto_item_set_generated( proto_tree_add_cbor_strlen(tree_block, hf_canonical_data_size, pinfo, tvb, chunk) ); proto_item *item_data = proto_tree_add_cbor_bstr(tree_block, hf_canonical_data, pinfo, tvb, chunk); proto_tree *tree_data = proto_item_add_subtree(item_data, ett_canonical_data); block->tree_data = tree_data; switch (block->crc_type) { case BP_CRC_NONE: break; case BP_CRC_16: case BP_CRC_32: { if (!wscbor_require_array_size(chunk_block, field_ix + 1, field_ix + 1)) { // Skip whole array offset = start; wscbor_skip_next_item(pinfo->pool, tvb, &offset); return offset - start; } chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); tvbuff_t *crc_field = wscbor_require_bstr(wmem_file_scope(), chunk); field_ix++; block->crc_field = crc_field; tvbuff_t *tvb_block = tvb_new_subset_length(tvb, start, offset - start); show_crc_info(tvb_block, pinfo, tree_block, crc_type, crc_field); break; } default: expert_add_info(pinfo, item_crc_type, &ei_crc_type_unknown); break; } wmem_list_append(bundle->blocks, block); if (block->type_code) { wmem_list_t *type_list = wmem_map_lookup(bundle->block_types, block->type_code); if (!type_list) { uint64_t *key = uint64_new(wmem_file_scope(), *(block->type_code)); type_list = wmem_list_new(wmem_file_scope()); wmem_map_insert(bundle->block_types, key, type_list); } wmem_list_append(type_list, block); } if (block->block_number) { bp_block_canonical_t *found = wmem_map_lookup(bundle->block_nums, block->block_number); if (found) { expert_add_info(pinfo, item_block_num, &ei_block_num_dupe); } else { uint64_t *key = uint64_new(wmem_file_scope(), *(block->block_number)); wmem_map_insert(bundle->block_nums, key, block); } } // Payload block requirements if (block->type_code && (*(block->type_code) == BP_BLOCKTYPE_PAYLOAD)) { // must have index zero if (block->block_number && (*(block->block_number) != 1)) { expert_add_info(pinfo, item_block_num, &ei_block_payload_num); } } return offset - start; } typedef struct { packet_info *pinfo; proto_item *pi; expert_field *eiindex; const char *sectype; } bpsec_block_mark_t; /// Mark blocks with BPSec expert info static void mark_target_block(void *key, void *value _U_, void *user_data) { const uint64_t *blk_num = (uint64_t *)key; const bpsec_block_mark_t *mark = (bpsec_block_mark_t *)user_data; expert_add_info_format( mark->pinfo, mark->pi, mark->eiindex, "Block is targed by %s block number %" PRIu64, mark->sectype, *blk_num ); } static void apply_bpsec_mark(const security_mark_t *sec, packet_info *pinfo, proto_item *pi) { { bpsec_block_mark_t mark; mark.pinfo = pinfo; mark.pi = pi; mark.eiindex = &ei_block_sec_bib_tgt; mark.sectype = "BIB"; wmem_map_foreach(sec->data_i, mark_target_block, &mark); } { bpsec_block_mark_t mark; mark.pinfo = pinfo; mark.pi = pi; mark.eiindex = &ei_block_sec_bcb_tgt; mark.sectype = "BCB"; wmem_map_foreach(sec->data_c, mark_target_block, &mark); } } /** Extract data from a block (including payload and admin). * * @param dissector The optional dissector to call. * @param context Context for the @c dissector. * @param tvb Buffer to read from. * @param pinfo Packet info to update. * @param tree The tree to write items under. * @param type_exp True if the type code is in the private/experimental range. * @return The number of dissected octets. */ static int dissect_carried_data(dissector_handle_t dissector, void *context, tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, bool type_exp) { int sublen = 0; if (dissector) { sublen = call_dissector_only(dissector, tvb, pinfo, tree, context); if ((sublen < 0) || ((sublen > 0) && ((unsigned)sublen < tvb_reported_length(tvb)))) { expert_add_info(pinfo, proto_tree_get_parent(tree), &ei_sub_partial_decode); } } else if (!type_exp) { expert_add_info(pinfo, proto_tree_get_parent(tree), &ei_sub_type_unknown); } if ((sublen <= 0) && bp_payload_try_heur) { heur_dtbl_entry_t *entry = NULL; if (dissector_try_heuristic(btsd_heur, tvb, pinfo, tree, &entry, context)) { sublen = tvb_reported_length(tvb); } } if (sublen == 0) { sublen = call_data_dissector(tvb, pinfo, tree); } return sublen; } /** Handle iteration over status subject set. * */ static void show_status_subj_ref(void *key, void *val _U_, void *data) { bp_bundle_ident_t *status_ident = key; proto_tree *tree_bundle = data; const wmem_list_t *subj_list = wmem_map_lookup(bp_history->bundles, status_ident); const wmem_list_frame_t *subj_it = subj_list ? wmem_list_head(subj_list) : NULL; const bp_bundle_t *subj_found = subj_it ? wmem_list_frame_data(subj_it) : NULL; if (subj_found) { proto_item *item_subj_ref = proto_tree_add_uint(tree_bundle, hf_bundle_status_ref, NULL, 0, 0, subj_found->frame_num); proto_item_set_generated(item_subj_ref); } } /// Stable sort, preserving relative order of same priority static int block_dissect_sort(const void *a, const void *b) { DISSECTOR_ASSERT(a && b); const bp_block_canonical_t *aobj = *(bp_block_canonical_t **)a; const bp_block_canonical_t *bobj = *(bp_block_canonical_t **)b; const int aord = blocktype_order(aobj); const int bord = blocktype_order(bobj); if (aord < bord) { return -1; } else if (aord > bord) { return 1; } return g_int_equal(&(aobj->blk_ix), &(bobj->blk_ix)); } /// Top-level protocol dissector static int dissect_bp(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { { const char *proto_name = col_get_text(pinfo->cinfo, COL_PROTOCOL); if (g_strcmp0(proto_name, proto_name_bp) != 0) { col_set_str(pinfo->cinfo, COL_PROTOCOL, proto_name_bp); col_clear(pinfo->cinfo, COL_INFO); } } int offset = 0; proto_item *item_bundle = proto_tree_add_item(tree, proto_bp, tvb, 0, -1, ENC_NA); proto_tree *tree_bundle = proto_item_add_subtree(item_bundle, ett_bundle); bp_bundle_t *bundle = bp_bundle_new(wmem_file_scope()); bundle->frame_num = pinfo->num; bundle->layer_num = pinfo->curr_layer_num; bundle->frame_time = pinfo->abs_ts; // Read blocks directly from buffer with same addresses as #tvb const unsigned buflen = tvb_reported_length(tvb); // Require indefinite-length array type wscbor_chunk_t *chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); proto_item *item_head = proto_tree_add_item(tree_bundle, hf_bundle_head, tvb, chunk->start, chunk->data_length, ENC_NA); wscbor_require_array(chunk); if (wscbor_chunk_mark_errors(pinfo, item_head, chunk)) { return 0; } else if (chunk->type_minor != 31) { expert_add_info_format(pinfo, item_head, &ei_invalid_framing, "Expected indefinite length array"); // continue on even for definite-length array } uint64_t block_ix = 0; while (true) { if (offset >= (int)buflen) { proto_item *item_break = proto_tree_add_item(tree_bundle, hf_bundle_break, tvb, offset, -1, ENC_NA); expert_add_info_format(pinfo, item_break, &ei_invalid_framing, "Array break missing"); break; } // Either detect BREAK or decode block chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); if (wscbor_is_indefinite_break(chunk)) { proto_tree_add_cbor_ctrl(tree_bundle, hf_bundle_break, pinfo, tvb, chunk); break; } offset = chunk->start; // Load just the array start const int block_start = offset; proto_item *item_block = proto_tree_add_item(tree_bundle, hf_block, tvb, block_start, -1, ENC_NA); proto_tree *tree_block = proto_item_add_subtree(item_block, ett_block); if (block_ix == 0) { // Primary block proto_item_prepend_text(item_block, "Primary "); const int sublen = dissect_block_primary(tvb, pinfo, tree_block, offset, bundle->primary, bundle); if (sublen <= 0) { break; } offset += sublen; if (!(bundle->ident)) { bundle->ident = bp_bundle_ident_new( wmem_file_scope(), bundle->primary->src_nodeid, &(bundle->primary->ts), bundle->primary->frag_offset, bundle->primary->total_len ); proto_item *item_ident = proto_tree_add_ident(pinfo, tree_bundle, hf_bundle_ident, tvb, bundle->ident); proto_tree *tree_ident = proto_item_add_subtree(item_ident, ett_ident); const wmem_list_t *seen_list = wmem_map_lookup(bp_history->bundles, bundle->ident); wmem_list_frame_t *seen_it = seen_list ? wmem_list_head(seen_list) : NULL; const bp_bundle_t *seen_first = seen_it ? wmem_list_frame_data(seen_it) : NULL; // show first occurrence if not this one if (seen_first && (seen_first->frame_num != pinfo->num)) { proto_item *item_seen = proto_tree_add_uint(tree_ident, hf_bundle_first_seen, tvb, 0, 0, seen_first->frame_num); proto_item_set_generated(item_seen); nstime_t td; nstime_delta(&td, &(bundle->frame_time), &(seen_first->frame_time)); proto_item *item_td = proto_tree_add_time(tree_ident, hf_bundle_seen_time_diff, tvb, 0, 0, &td); proto_item_set_generated(item_td); } // show any retransmits else if (seen_it) { for (seen_it = wmem_list_frame_next(seen_it); seen_it != NULL; seen_it = wmem_list_frame_next(seen_it)) { const bp_bundle_t *seen_re = wmem_list_frame_data(seen_it); if (seen_re && (seen_re->frame_num != pinfo->num)) { proto_item *item_seen = proto_tree_add_uint(tree_ident, hf_bundle_retrans_seen, tvb, 0, 0, seen_re->frame_num); proto_item_set_generated(item_seen); } } } // Indicate related status (may be multiple) wmem_map_t *status_set = wmem_map_lookup(bp_history->admin_status, bundle->ident); if (status_set) { wmem_map_foreach(status_set, show_status_subj_ref, tree_ident); } } { const bp_eid_t *dst = bundle->primary->dst_eid; if (dst) { proto_item *item_dst = NULL; if (dst->dtn_serv) { item_dst = proto_tree_add_string(tree_bundle, hf_bundle_dst_dtn_srv, tvb, 0, 0, dst->dtn_serv); } else if (dst->ipn_serv) { item_dst = proto_tree_add_uint64(tree_bundle, hf_bundle_dst_ipn_srv, tvb, 0, 0, *(dst->ipn_serv)); } if (item_dst) { proto_item_set_generated(item_dst); } } } } else { // Non-primary block proto_item_prepend_text(item_block, "Canonical "); bp_block_canonical_t *block = bp_block_canonical_new(wmem_file_scope(), block_ix); const int sublen = dissect_block_canonical(tvb, pinfo, tree_block, offset, block, bundle); if (sublen <= 0) { break; } offset += sublen; } proto_item_set_len(item_block, offset - block_start); block_ix++; } // Block ordering requirements for (wmem_list_frame_t *it = wmem_list_head(bundle->blocks); it; it = wmem_list_frame_next(it)) { bp_block_canonical_t *block = wmem_list_frame_data(it); if (block->type_code && (*(block->type_code) == BP_BLOCKTYPE_PAYLOAD)) { // must be last block (i.e. next is NULL) if (wmem_list_frame_next(it)) { expert_add_info(pinfo, block->item_block, &ei_block_payload_index); } if (block->data) { bundle->pyld_start = wmem_new(wmem_file_scope(), unsigned); *(bundle->pyld_start) = tvb_raw_offset(block->data) - tvb_raw_offset(tvb); bundle->pyld_len = wmem_new(wmem_file_scope(), unsigned); *(bundle->pyld_len) = tvb_reported_length(block->data); } } } // Handle block-type-specific data after all blocks are present wmem_array_t *sorted = wmem_array_sized_new( pinfo->pool, sizeof(bp_block_canonical_t*), wmem_list_count(bundle->blocks) ); unsigned ix = 0; for (wmem_list_frame_t *it = wmem_list_head(bundle->blocks); it; it = wmem_list_frame_next(it), ++ix) { bp_block_canonical_t *block = wmem_list_frame_data(it); wmem_array_append_one(sorted, block); } wmem_array_sort(sorted, block_dissect_sort); // Dissect in sorted order for (ix = 0; ix < wmem_array_get_count(sorted); ++ix) { bp_block_canonical_t *block = *(bp_block_canonical_t **)wmem_array_index(sorted, ix); // Ignore when data is absent or is a // confidentiality target (i.e. ciphertext) if (!(block->data) || (wmem_map_size(block->sec.data_c) > 0)) { continue; } // sub-dissect after all is read dissector_handle_t data_dissect = NULL; bool type_exp = false; if (block->type_code) { data_dissect = dissector_get_custom_table_handle(block_dissectors, block->type_code); type_exp = (*(block->type_code) >= 192) && (*(block->type_code) <= 255); } bp_dissector_data_t dissect_data; dissect_data.bundle = bundle; dissect_data.block = block; dissect_carried_data(data_dissect, &dissect_data, block->data, pinfo, block->tree_data, type_exp); } // Block-data-derived markings apply_bpsec_mark(&(bundle->primary->sec), pinfo, bundle->primary->item_block); for (wmem_list_frame_t *it = wmem_list_head(bundle->blocks); it; it = wmem_list_frame_next(it)) { bp_block_canonical_t *block = wmem_list_frame_data(it); apply_bpsec_mark(&(block->sec), pinfo, block->item_block); } { const bp_block_primary_t *primary = bundle->primary; proto_item_append_text(item_bundle, ", Src: %s", address_to_name(&(primary->src_nodeid->uri))); proto_item_append_text(item_bundle, ", Dst: %s", address_to_name(&(primary->dst_eid->uri))); if (bundle->ident) { proto_item_append_text(item_bundle, ", Time: %" PRIu64, bundle->ident->ts.abstime.dtntime); proto_item_append_text(item_bundle, ", Seq: %" PRIu64, bundle->ident->ts.seqno); } proto_item_append_text(item_bundle, ", Blocks: %" PRIu64, block_ix); if ((primary->src_nodeid->uri.type != AT_NONE) && (primary->dst_eid->uri.type != AT_NONE)) { // conversation starts in either order address *addra, *addrb; if (cmp_address(&(primary->src_nodeid->uri), &(primary->dst_eid->uri)) < 0) { addra = &(primary->src_nodeid->uri); addrb = &(primary->dst_eid->uri); } else { addra = &(primary->dst_eid->uri); addrb = &(primary->src_nodeid->uri); } copy_address_shallow(&(pinfo->src), &(primary->src_nodeid->uri)); copy_address_shallow(&(pinfo->dst), &(primary->dst_eid->uri)); pinfo->ptype = PT_NONE; conversation_element_t *conv_el = wmem_alloc_array(pinfo->pool, conversation_element_t, 3); conv_el[0].type=CE_ADDRESS; copy_address_shallow(&(conv_el[0].addr_val), addra); conv_el[1].type=CE_ADDRESS; copy_address_shallow(&(conv_el[1].addr_val), addrb); conv_el[2].type=CE_CONVERSATION_TYPE; conv_el[2].conversation_type_val=CONVERSATION_BP; pinfo->use_conv_addr_port_endpoints = false; pinfo->conv_addr_port_endpoints = NULL; pinfo->conv_elements = conv_el; find_or_create_conversation(pinfo); } } if (bundle->pyld_start && bundle->pyld_len) { proto_item_append_text(item_bundle, ", Payload-Size: %d", *(bundle->pyld_len)); // Treat payload as non-protocol data const unsigned trailer_start = *(bundle->pyld_start) + *(bundle->pyld_len); proto_item_set_len(item_bundle, *(bundle->pyld_start)); proto_tree_set_appendix(tree_bundle, tvb, trailer_start, offset - trailer_start); } else { proto_item_set_len(item_bundle, offset); } bp_bundle_t *unique_bundle = bundle; if (bundle->ident) { // Keep bundle metadata around for the whole file wmem_list_t *found_list = wmem_map_lookup(bp_history->bundles, bundle->ident); if (!found_list) { found_list = wmem_list_new(wmem_file_scope()); wmem_map_insert(bp_history->bundles, bundle->ident, found_list); } const wmem_list_frame_t *found_it = wmem_list_find_custom(found_list, bundle, bp_bundle_frameloc_compare); bp_bundle_t *found_item = found_it ? wmem_list_frame_data(found_it) : NULL; if (!found_item) { wmem_list_append(found_list, bundle); } else { bp_bundle_free(wmem_file_scope(), bundle); unique_bundle = found_item; } } p_add_proto_data(pinfo->pool, pinfo, proto_bp, PROTO_DATA_BUNDLE, unique_bundle); tap_queue_packet(bp_tap, pinfo, unique_bundle); return offset; } static bool dissect_status_assertion(proto_tree *tree, int hfassert, packet_info *pinfo, tvbuff_t *tvb, int *offset) { proto_item *item_assert = proto_tree_add_item(tree, hfassert, tvb, *offset, -1, ENC_NA); bool result = false; wscbor_chunk_t *chunk_assert = wscbor_chunk_read(pinfo->pool, tvb, offset); wscbor_require_array_size(chunk_assert, 1, 2); wscbor_chunk_mark_errors(pinfo, item_assert, chunk_assert); if (!wscbor_skip_if_errors(pinfo->pool, tvb, offset, chunk_assert)) { proto_tree *tree_assert = proto_item_add_subtree(item_assert, ett_status_assert); wscbor_chunk_t *chunk = wscbor_chunk_read(pinfo->pool, tvb, offset); bool *status_val = wscbor_require_boolean(pinfo->pool, chunk); proto_tree_add_cbor_boolean(tree_assert, hf_status_assert_val, pinfo, tvb, chunk, status_val); if (status_val) { result = *status_val; } if (chunk_assert->head_value > 1) { bp_dtn_time_t abstime; dissect_dtn_time(tree_assert, hf_status_assert_time, pinfo, tvb, offset, &abstime); } } proto_item_set_len(item_assert, *offset - chunk_assert->start); return result; } static int dissect_payload_admin(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data) { bp_dissector_data_t *context = (bp_dissector_data_t *)data; DISSECTOR_ASSERT(context); { const char *proto_name = col_get_text(pinfo->cinfo, COL_PROTOCOL); if (g_strcmp0(proto_name, proto_name_bp_admin) != 0) { col_set_str(pinfo->cinfo, COL_PROTOCOL, proto_name_bp_admin); col_clear(pinfo->cinfo, COL_INFO); } } proto_item *item_rec = proto_tree_add_item(tree, proto_bp_admin, tvb, 0, -1, ENC_NA); int offset = 0; wscbor_chunk_t *chunk_rec = wscbor_chunk_read(pinfo->pool, tvb, &offset); wscbor_require_array_size(chunk_rec, 1, 2); wscbor_chunk_mark_errors(pinfo, item_rec, chunk_rec); if (!wscbor_skip_if_errors(pinfo->pool, tvb, &offset, chunk_rec)) { proto_tree *tree_rec = proto_item_add_subtree(item_rec, ett_admin); wscbor_chunk_t *chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); uint64_t *type_code = wscbor_require_uint64(pinfo->pool, chunk); proto_item *item_type = proto_tree_add_cbor_uint64(tree_rec, hf_admin_record_type, pinfo, tvb, chunk, type_code); dissector_handle_t type_dissect = NULL; bool type_exp = false; if (type_code) { type_dissect = dissector_get_custom_table_handle(admin_dissectors, type_code); label_type_field(type_code, type_dissect, item_type, item_rec); type_exp = (*type_code >= 65536); } tvbuff_t *tvb_record = tvb_new_subset_remaining(tvb, offset); int sublen = dissect_carried_data(type_dissect, context, tvb_record, pinfo, tree_rec, type_exp); offset += sublen; } proto_item_set_len(item_rec, offset); return offset; } static int dissect_status_report(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data) { bp_dissector_data_t *context = (bp_dissector_data_t *)data; if (!context) { return -1; } int offset = 0; // Status Information array head proto_item *item_status = proto_tree_add_item(tree, hf_status_rep, tvb, offset, -1, ENC_NA); proto_tree *tree_status = proto_item_add_subtree(item_status, ett_status_rep); unsigned status_field_ix = 0; wscbor_chunk_t *chunk_status = wscbor_chunk_read(pinfo->pool, tvb, &offset); wscbor_require_array_size(chunk_status, 4, 6); wscbor_chunk_mark_errors(pinfo, item_status, chunk_status); if (wscbor_skip_if_errors(pinfo->pool, tvb, &offset, chunk_status)) { proto_item_set_len(item_status, offset - chunk_status->start); return 0; } wscbor_chunk_t *chunk; bool status_received = false; bool status_forwarded = false; bool status_delivered = false; bool status_deleted = false; wscbor_chunk_t *chunk_info = wscbor_chunk_read(pinfo->pool, tvb, &offset); wscbor_require_array_size(chunk_info, 4, 4); { proto_item *item_info = proto_tree_add_item(tree_status, hf_status_rep_status_info, tvb, offset, -1, ENC_NA); wscbor_chunk_mark_errors(pinfo, item_info, chunk_info); if (!wscbor_skip_if_errors(pinfo->pool, tvb, &offset, chunk_info)) { proto_tree *tree_info = proto_item_add_subtree(item_info, ett_status_info); status_received = dissect_status_assertion(tree_info, hf_status_rep_received, pinfo, tvb, &offset); status_forwarded = dissect_status_assertion(tree_info, hf_status_rep_forwarded, pinfo, tvb, &offset); status_delivered = dissect_status_assertion(tree_info, hf_status_rep_delivered, pinfo, tvb, &offset); status_deleted = dissect_status_assertion(tree_info, hf_status_rep_deleted, pinfo, tvb, &offset); } proto_item_set_len(item_info, offset - chunk_info->start); status_field_ix++; } chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); uint64_t *reason_code = wscbor_require_uint64(pinfo->pool, chunk); proto_tree_add_cbor_uint64(tree_status, hf_status_rep_reason_code, pinfo, tvb, chunk, reason_code); status_field_ix++; bp_eid_t *subj_eid = bp_eid_new(pinfo->pool); proto_tree_add_cbor_eid(tree_status, hf_status_rep_subj_src_nodeid, hf_status_rep_subj_src_uri, pinfo, tvb, &offset, subj_eid); status_field_ix++; bp_creation_ts_t subj_ts = {0}; dissect_cbor_timestamp(tree_status, hf_status_rep_subj_ts, pinfo, tvb, &offset, &subj_ts); status_field_ix++; bp_bundle_ident_t *subj = bp_bundle_ident_new(wmem_file_scope(), subj_eid, &subj_ts, NULL, NULL); if (chunk_info->head_value > status_field_ix) { chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); subj->frag_offset = wscbor_require_uint64(wmem_file_scope(), chunk); proto_tree_add_cbor_uint64(tree_status, hf_status_rep_subj_frag_offset, pinfo, tvb, chunk, subj->frag_offset); status_field_ix++; } if (chunk_info->head_value > status_field_ix) { chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); subj->total_len = wscbor_require_uint64(wmem_file_scope(), chunk); proto_tree_add_cbor_uint64(tree_status, hf_status_rep_subj_payload_len, pinfo, tvb, chunk, subj->total_len); status_field_ix++; } proto_tree_add_ident(pinfo, tree_status, hf_status_rep_subj_ident, tvb, subj); { // Pointer back to subject const wmem_list_t *subj_list = wmem_map_lookup(bp_history->bundles, subj); const wmem_list_frame_t *subj_it = subj_list ? wmem_list_head(subj_list) : NULL; const bp_bundle_t *subj_found = subj_it ? wmem_list_frame_data(subj_it) : NULL; if (subj_found) { proto_item *item_subj_ref = proto_tree_add_uint(tree_status, hf_status_rep_subj_ref, tvb, 0, 0, subj_found->frame_num); proto_item_set_generated(item_subj_ref); nstime_t td; nstime_delta(&td, &(context->bundle->frame_time), &(subj_found->frame_time)); proto_item *item_td = proto_tree_add_time(tree_status, hf_status_time_diff, tvb, 0, 0, &td); proto_item_set_generated(item_td); } } { // Pointers from subject to this status wmem_map_t *status_set = wmem_map_lookup(bp_history->admin_status, subj); if (!status_set) { status_set = wmem_map_new(wmem_file_scope(), bp_bundle_ident_hash, bp_bundle_ident_equal); wmem_map_insert(bp_history->admin_status, subj, status_set); } else { bp_bundle_ident_free(wmem_file_scope(), subj); } // Back-references to this status if (!wmem_map_contains(status_set, context->bundle->ident)) { ws_debug("status for %p in frame %d", (void*)context->bundle, context->bundle->frame_num); wmem_map_insert(status_set, context->bundle->ident, NULL); } } proto_item *item_admin = proto_tree_get_parent(tree); { wmem_strbuf_t *status_text = wmem_strbuf_new(pinfo->pool, NULL); bool sep = false; if (status_received) { if (sep) { wmem_strbuf_append(status_text, "|"); } wmem_strbuf_append(status_text, "RECEIVED"); sep = true; } if (status_forwarded) { if (sep) { wmem_strbuf_append(status_text, "|"); } wmem_strbuf_append(status_text, "FORWARDED"); sep = true; } if (status_delivered) { if (sep) { wmem_strbuf_append(status_text, "|"); } wmem_strbuf_append(status_text, "DELIVERED"); sep = true; } if (status_deleted) { if (sep) { wmem_strbuf_append(status_text, "|"); } wmem_strbuf_append(status_text, "DELETED"); } const char *status_buf = wmem_strbuf_finalize(status_text); proto_item_append_text(item_admin, ", Status: %s", status_buf); col_append_sep_fstr(pinfo->cinfo, COL_INFO, NULL, "Status: %s", status_buf); } if (reason_code) { proto_item_append_text(item_admin, ", Reason: %s", val64_to_str(*reason_code, status_report_reason_vals, "%" PRIu64)); } proto_item_set_len(item_status, offset - chunk_status->start); return offset; } /** Dissector for Bundle Payload block. */ static int dissect_block_payload(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data) { bp_dissector_data_t *context = (bp_dissector_data_t *)data; if (!context) { return -1; } const bp_bundle_t *bundle = context->bundle; // Parent bundle tree proto_tree *tree_block = proto_tree_get_parent_tree(tree); proto_tree *tree_bundle = proto_tree_get_parent_tree(tree_block); // Back up to top-level proto_item *tree_top = proto_tree_get_parent_tree(tree_bundle); const bool is_fragment = bundle->primary->flags & BP_BUNDLE_IS_FRAGMENT; const bool is_admin = bundle->primary->flags & BP_BUNDLE_PAYLOAD_ADMIN; const unsigned payload_len = tvb_reported_length(tvb); // Set if the payload is fully defragmented tvbuff_t *tvb_payload = NULL; const char *col_suffix = NULL; if (is_fragment) { col_suffix = " (fragment)"; if (bp_reassemble_payload) { if (!(bundle->primary->frag_offset && bundle->primary->total_len)) { return -1; } // correlate by non-fragment bundle identity hash bp_bundle_ident_t *corr_ident = bp_bundle_ident_new( pinfo->pool, bundle->primary->src_nodeid, &(bundle->primary->ts), NULL, NULL ); if ( (UINT32_MAX < *(bundle->primary->frag_offset)) || (UINT32_MAX < *(bundle->primary->total_len))) { expert_add_info(pinfo, bundle->primary->item_block, &ei_fragment_reassemble_size); } else { const uint32_t frag_offset = (uint32_t)*(bundle->primary->frag_offset); const uint32_t total_len = (uint32_t)*(bundle->primary->total_len); fragment_head *payload_frag_msg = fragment_add_check( &bp_reassembly_table, tvb, 0, pinfo, 0, corr_ident, frag_offset, payload_len, true ); const uint32_t old_total_len = fragment_get_tot_len( &bp_reassembly_table, pinfo, 0, corr_ident ); if (old_total_len > 0) { if (total_len != old_total_len) { expert_add_info(pinfo, bundle->primary->item_block, &ei_fragment_tot_mismatch); } } else { fragment_set_tot_len( &bp_reassembly_table, pinfo, 0, corr_ident, total_len ); } tvb_payload = process_reassembled_data( tvb, 0, pinfo, "Reassembled Payload", payload_frag_msg, &payload_frag_items, NULL, tree_bundle ); if (tvb_payload) { col_suffix = " (reassembled)"; } } bp_bundle_ident_free(pinfo->pool, corr_ident); } } else { tvb_payload = tvb; } col_append_sep_fstr(pinfo->cinfo, COL_INFO, NULL, "Payload-Size: %d", payload_len); if (col_suffix) { col_append_str(pinfo->cinfo, COL_INFO, col_suffix); } if (!tvb_payload) { return payload_len; } // Payload is known to be administrative, independent of destination EID if (is_admin) { col_append_str(pinfo->cinfo, COL_INFO, " [Admin]"); const int sublen = call_dissector_only(handle_admin, tvb_payload, pinfo, tree_top, context); if (sublen > 0) { return sublen; } } // an EID shouldn't have multiple of these set dissector_handle_t payload_dissect = NULL; if (bundle->primary->dst_eid->dtn_wkssp) { payload_dissect = dissector_get_string_handle(payload_dissectors_dtn_wkssp, bundle->primary->dst_eid->dtn_wkssp); } else if (bundle->primary->dst_eid->dtn_serv) { payload_dissect = dissector_get_string_handle(payload_dissectors_dtn_serv, bundle->primary->dst_eid->dtn_serv); } else if (bundle->primary->dst_eid->ipn_serv && (*(bundle->primary->dst_eid->ipn_serv) <= UINT_MAX)) { payload_dissect = dissector_get_uint_handle(payload_dissectors_ipn_serv, (unsigned)(*(bundle->primary->dst_eid->ipn_serv))); } return dissect_carried_data(payload_dissect, context, tvb_payload, pinfo, tree_top, true); } /** Dissector for Previous Node block. */ static int dissect_block_prev_node(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { int offset = 0; proto_tree_add_cbor_eid(tree, hf_previous_node_nodeid, hf_previous_node_uri, pinfo, tvb, &offset, NULL); return offset; } /** Dissector for Bundle Age block. */ static int dissect_block_bundle_age(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { int offset = 0; wscbor_chunk_t *chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); const uint64_t *age = wscbor_require_uint64(pinfo->pool, chunk); proto_tree_add_cbor_uint64(tree, hf_bundle_age_time, pinfo, tvb, chunk, age); return offset; } /** Dissector for Hop Count block. */ static int dissect_block_hop_count(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { int offset = 0; wscbor_chunk_t *chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); wscbor_require_array_size(chunk, 2, 2); if (wscbor_skip_if_errors(pinfo->pool, tvb, &offset, chunk)) { return 0; } chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); const uint64_t *limit = wscbor_require_uint64(pinfo->pool, chunk); proto_tree_add_cbor_uint64(tree, hf_hop_count_limit, pinfo, tvb, chunk, limit); chunk = wscbor_chunk_read(pinfo->pool, tvb, &offset); const uint64_t *current = wscbor_require_uint64(pinfo->pool, chunk); proto_tree_add_cbor_uint64(tree, hf_hop_count_current, pinfo, tvb, chunk, current); return offset; } static bool btsd_heur_cbor(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { int offset = 0; volatile int count = 0; while ((unsigned)offset < tvb_reported_length(tvb)) { volatile bool valid = false; TRY { valid = wscbor_skip_next_item(pinfo->pool, tvb, &offset); } CATCH_BOUNDS_AND_DISSECTOR_ERRORS {} ENDTRY; if (!valid) { break; } ++count; } // Anything went wrong with any part of the data if ((count == 0) || ((unsigned)offset != tvb_reported_length(tvb))) { return false; } if (count == 1) { call_dissector(handle_cbor, tvb, pinfo, tree); } else { call_dissector(handle_cborseq, tvb, pinfo, tree); } return true; } /// Clear state when new file scope is entered static void bp_init(void) { bp_history = wmem_new0(wmem_file_scope(), bp_history_t); // ident keys are owned by the respective bundles bp_history->bundles = wmem_map_new(wmem_file_scope(), bp_bundle_ident_hash, bp_bundle_ident_equal); // subject ident key is not kept bp_history->admin_status = wmem_map_new(wmem_file_scope(), bp_bundle_ident_hash, bp_bundle_ident_equal); } static void bp_cleanup(void) {} /// Re-initialize after a configuration change static void bp_reinit_config(void) {} static void *fragment_bundle_ident_temporary_key( const packet_info *pinfo _U_, const uint32_t id _U_, const void *data) { return (bp_bundle_ident_t *)data; } static void *fragment_bundle_ident_persistent_key( const packet_info *pinfo _U_, const uint32_t id _U_, const void *data) { const bp_bundle_ident_t *ident = (const bp_bundle_ident_t *)data; bp_bundle_ident_t *key = g_slice_new0(bp_bundle_ident_t); copy_address(&(key->src), &(ident->src)); key->ts = ident->ts; if (ident->frag_offset) { key->frag_offset = g_slice_new(uint64_t); key->frag_offset = ident->frag_offset; } if (ident->total_len) { key->total_len = g_slice_new(uint64_t); key->total_len = ident->total_len; } return key; } static void fragment_bundle_ident_free_temporary_key(void *ptr _U_) {} static void fragment_bundle_ident_free_persistent_key(void *ptr) { bp_bundle_ident_t *key = (bp_bundle_ident_t *)ptr; free_address(&(key->src)); g_slice_free(uint64_t, (void *)(key->frag_offset)); g_slice_free(uint64_t, (void *)(key->total_len)); g_slice_free(bp_bundle_ident_t, key); } static const reassembly_table_functions bundle_reassembly_table_functions = { bp_bundle_ident_hash, bp_bundle_ident_equal, fragment_bundle_ident_temporary_key, fragment_bundle_ident_persistent_key, fragment_bundle_ident_free_temporary_key, fragment_bundle_ident_free_persistent_key }; static void dtn_serv_prompt(packet_info *pinfo, char *result) { const bp_bundle_t *bundle = p_get_proto_data(pinfo->pool, pinfo, proto_bp, PROTO_DATA_BUNDLE); const char *serv = NULL; if (bundle && bundle->primary->dst_eid->dtn_serv) { serv = bundle->primary->dst_eid->dtn_serv; } snprintf(result, MAX_DECODE_AS_PROMPT_LEN, "dst (%s)", serv); } static void *dtn_serv_value(packet_info *pinfo) { const bp_bundle_t *bundle = p_get_proto_data(pinfo->pool, pinfo, proto_bp, PROTO_DATA_BUNDLE); if (bundle && bundle->primary->dst_eid->dtn_serv) { const char *serv = bundle->primary->dst_eid->dtn_serv; return (char *)serv; } return 0; } static void ipn_serv_prompt(packet_info *pinfo, char *result) { const bp_bundle_t *bundle = p_get_proto_data(pinfo->pool, pinfo, proto_bp, PROTO_DATA_BUNDLE); uint32_t serv = 0; if (bundle && bundle->primary->dst_eid->ipn_serv && (*(bundle->primary->dst_eid->ipn_serv) <= UINT_MAX)) { serv = (unsigned int) *(bundle->primary->dst_eid->ipn_serv); } snprintf(result, MAX_DECODE_AS_PROMPT_LEN, "dst (%u)", serv); } static void *ipn_serv_value(packet_info *pinfo) { const bp_bundle_t *bundle = p_get_proto_data(pinfo->pool, pinfo, proto_bp, PROTO_DATA_BUNDLE); if (bundle && bundle->primary->dst_eid->ipn_serv && (*(bundle->primary->dst_eid->ipn_serv) <= UINT_MAX)) { uint64_t serv = *(bundle->primary->dst_eid->ipn_serv); return GUINT_TO_POINTER(serv); } return 0; } static const char * bp_conv_get_filter_type(conv_item_t *item, conv_filter_type_e filter) { if ((filter == CONV_FT_SRC_ADDRESS) && (item->src_address.type == AT_STRINGZ)) { return "bpv7.primary.src_uri"; } if ((filter == CONV_FT_DST_ADDRESS) && (item->dst_address.type == AT_STRINGZ)) { return "bpv7.primary.dst_uri"; } if ((filter == CONV_FT_ANY_ADDRESS) && ( (item->src_address.type == AT_STRINGZ) || (item->dst_address.type == AT_STRINGZ))) { return "bpv7.primary.srcdst_uri"; } return CONV_FILTER_INVALID; } static ct_dissector_info_t bp_ct_dissector_info = {&bp_conv_get_filter_type}; static tap_packet_status bp_conv_packet(void *pct, packet_info *pinfo, epan_dissect_t *edt _U_, const void *vip, tap_flags_t flags) { conv_hash_t *hash = (conv_hash_t*) pct; const bp_bundle_t *bundle = (const bp_bundle_t *)vip; hash->flags = flags; add_conversation_table_data( hash, &(bundle->primary->src_nodeid->uri), &(bundle->primary->dst_eid->uri), 0, 0, 1, pinfo->fd->pkt_len, &pinfo->rel_ts, &pinfo->abs_ts, &bp_ct_dissector_info, CONVERSATION_NONE ); return TAP_PACKET_REDRAW; } static const char * bp_endp_get_filter_type(endpoint_item_t *item, conv_filter_type_e filter) { if ((filter == CONV_FT_SRC_ADDRESS) && (item->myaddress.type == AT_STRINGZ)) { return "bpv7.primary.src_uri"; } if ((filter == CONV_FT_DST_ADDRESS) && (item->myaddress.type == AT_STRINGZ)) { return "bpv7.primary.dst_uri"; } if ((filter == CONV_FT_ANY_ADDRESS) && (item->myaddress.type == AT_STRINGZ)) { return "bpv7.primary.srcdst_uri"; } return CONV_FILTER_INVALID; } static et_dissector_info_t bp_endp_dissector_info = {&bp_endp_get_filter_type}; static tap_packet_status bp_endp_packet(void *pit, packet_info *pinfo, epan_dissect_t *edt _U_, const void *vip, tap_flags_t flags) { conv_hash_t *hash = (conv_hash_t*)pit; const bp_bundle_t *bundle = (const bp_bundle_t *)vip; hash->flags = flags; if (bundle->primary->src_nodeid->uri.type == AT_STRINGZ) { add_endpoint_table_data( hash, &(bundle->primary->src_nodeid->uri), 0, true, 1, pinfo->fd->pkt_len, &bp_endp_dissector_info, ENDPOINT_NONE ); } if (bundle->primary->dst_eid->uri.type == AT_STRINGZ) { add_endpoint_table_data( hash, &(bundle->primary->dst_eid->uri), 0, false, 1, pinfo->fd->pkt_len, &bp_endp_dissector_info, ENDPOINT_NONE ); } return TAP_PACKET_REDRAW; } static bool bp_filter_valid(packet_info *pinfo, void *user_data _U_) { const bp_bundle_t *bundle = p_get_proto_data(pinfo->pool, pinfo, proto_bp, PROTO_DATA_BUNDLE); return bundle != NULL; } static char * bp_build_filter(packet_info *pinfo, void *user_data _U_) { const bp_bundle_t *bundle = p_get_proto_data(pinfo->pool, pinfo, proto_bp, PROTO_DATA_BUNDLE); if (!bundle) { return NULL; } return ws_strdup_printf( "bpv7.primary.srcdst_uri == \"%s\" and bpv7.primary.srcdst_uri == \"%s\"", address_to_name(&(bundle->primary->src_nodeid->uri)), address_to_name(&(bundle->primary->dst_eid->uri)) ); } /// Overall registration of the protocol void proto_register_bpv7(void) { proto_bp = proto_register_protocol("DTN Bundle Protocol Version 7", "BPv7", "bpv7"); register_init_routine(&bp_init); register_cleanup_routine(&bp_cleanup); proto_register_field_array(proto_bp, fields, array_length(fields)); proto_register_subtree_array(ett, array_length(ett)); expert_module_t *expert = expert_register_protocol(proto_bp); expert_register_field_array(expert, expertitems, array_length(expertitems)); register_dissector("bpv7", dissect_bp, proto_bp); block_dissectors = register_custom_dissector_table("bpv7.block_type", "BPv7 Block", proto_bp, g_int64_hash, g_int64_equal, g_free); // Blocks don't count as protocol layers proto_blocktype = proto_register_protocol_in_name_only("BPv7 Block Type", "Block Type", "bpv7.block_type", proto_bp, FT_PROTOCOL); // case-sensitive string matching payload_dissectors_dtn_wkssp = register_dissector_table("bpv7.payload.dtn_wkssp", "BPv7 DTN-scheme well-known SSP", proto_bp, FT_STRING, STRING_CASE_SENSITIVE); payload_dissectors_dtn_serv = register_dissector_table("bpv7.payload.dtn_serv", "BPv7 DTN-scheme service", proto_bp, FT_STRING, STRING_CASE_SENSITIVE); dissector_table_allow_decode_as(payload_dissectors_dtn_serv); static build_valid_func dtn_serv_da_build_value[1] = {dtn_serv_value}; static decode_as_value_t dtn_serv_da_values[1] = { {dtn_serv_prompt, 1, dtn_serv_da_build_value} }; static decode_as_t dtn_serv_da = { "bpv7", "bpv7.payload.dtn_serv", 1, 0, dtn_serv_da_values, NULL, NULL, decode_as_default_populate_list, decode_as_default_reset, decode_as_default_change, NULL }; register_decode_as(&dtn_serv_da); payload_dissectors_ipn_serv = register_dissector_table("bpv7.payload.ipn_serv", "BPv7 IPN-scheme service", proto_bp, FT_UINT32, BASE_DEC); dissector_table_allow_decode_as(payload_dissectors_ipn_serv); static build_valid_func ipn_serv_da_build_value[1] = {ipn_serv_value}; static decode_as_value_t ipn_serv_da_values[1] = { {ipn_serv_prompt, 1, ipn_serv_da_build_value} }; static decode_as_t ipn_serv_da = { "bpv7", "bpv7.payload.ipn_serv", 1, 0, ipn_serv_da_values, NULL, NULL, decode_as_default_populate_list, decode_as_default_reset, decode_as_default_change, NULL }; register_decode_as(&ipn_serv_da); module_t *module_bp = prefs_register_protocol(proto_bp, bp_reinit_config); prefs_register_bool_preference( module_bp, "bp_compute_crc", "Compute and compare CRCs", "If enabled, the blocks will have CRC checks performed.", &bp_compute_crc ); prefs_register_bool_preference( module_bp, "bp_reassemble_payload", "Reassemble fragmented payloads", "Whether the dissector should reassemble fragmented bundle payloads.", &bp_reassemble_payload ); prefs_register_bool_preference( module_bp, "bp_payload_try_heur", "Attempt heuristic dissection of BTSD/payload", "When dissecting block type-specific data and payload and no destination matches, attempt heuristic dissection.", &bp_payload_try_heur ); reassembly_table_register( &bp_reassembly_table, &bundle_reassembly_table_functions ); btsd_heur = register_heur_dissector_list_with_description("bpv7.btsd", "BPv7 block data fallback", proto_bp); bp_tap = register_tap("bpv7"); register_conversation_table(proto_bp, true, bp_conv_packet, bp_endp_packet); register_conversation_filter("bpv7", "BPv7", bp_filter_valid, bp_build_filter, NULL); proto_bp_admin = proto_register_protocol("BPv7 Administrative Record", "BPv7 Admin", "bpv7.admin_rec"); handle_admin = register_dissector("bpv7.admin_rec", dissect_payload_admin, proto_bp_admin); admin_dissectors = register_custom_dissector_table("bpv7.admin_record_type", "BPv7 Administrative Record Type", proto_bp_admin, g_int64_hash, g_int64_equal, g_free); proto_admintype = proto_register_protocol_in_name_only("BPv7 Administrative Record Type", "Admin Type", "bpv7.admin_record_type", proto_bp, FT_PROTOCOL); } void proto_reg_handoff_bpv7(void) { const int proto_cbor = proto_get_id_by_filter_name("cbor"); heur_dissector_add("bpv7.btsd", btsd_heur_cbor, "CBOR in Bundle BTSD", "cbor_bpv7", proto_cbor, HEURISTIC_ENABLE); handle_cbor = find_dissector("cbor"); handle_cborseq = find_dissector("cborseq"); /* Packaged extensions */ { uint64_t *key = g_new(uint64_t, 1); *key = BP_BLOCKTYPE_PAYLOAD; dissector_handle_t hdl = create_dissector_handle_with_name_and_description(dissect_block_payload, proto_blocktype, NULL, "Payload"); dissector_add_custom_table_handle("bpv7.block_type", key, hdl); } { uint64_t *key = g_new(uint64_t, 1); *key = BP_BLOCKTYPE_PREV_NODE; dissector_handle_t hdl = create_dissector_handle_with_name_and_description(dissect_block_prev_node, proto_blocktype, NULL, "Previous Node"); dissector_add_custom_table_handle("bpv7.block_type", key, hdl); } { uint64_t *key = g_new(uint64_t, 1); *key = BP_BLOCKTYPE_BUNDLE_AGE; dissector_handle_t hdl = create_dissector_handle_with_name_and_description(dissect_block_bundle_age, proto_blocktype, NULL, "Bundle Age"); dissector_add_custom_table_handle("bpv7.block_type", key, hdl); } { uint64_t *key = g_new(uint64_t, 1); *key = BP_BLOCKTYPE_HOP_COUNT; dissector_handle_t hdl = create_dissector_handle_with_name_and_description(dissect_block_hop_count, proto_blocktype, NULL, "Hop Count"); dissector_add_custom_table_handle("bpv7.block_type", key, hdl); } { uint64_t *key = g_new(uint64_t, 1); *key = BP_ADMINTYPE_BUNDLE_STATUS; dissector_handle_t hdl = create_dissector_handle_with_name_and_description(dissect_status_report, proto_admintype, NULL, "Bundle Status Report"); dissector_add_custom_table_handle("bpv7.admin_record_type", key, hdl); } bp_reinit_config(); }