/* packet-ucd.c * Routines for UCD Message dissection * Copyright 2002, Anand V. Narwani * * $Id$ * * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include "moduleinfo.h" #include #include #include #include #include #define UCD_SYMBOL_RATE 1 #define UCD_FREQUENCY 2 #define UCD_PREAMBLE 3 #define UCD_BURST_DESCR 4 #define UCD_BURST_DESCR5 5 #define UCD_MODULATION 1 #define UCD_DIFF_ENCODING 2 #define UCD_PREAMBLE_LEN 3 #define UCD_PREAMBLE_VAL_OFF 4 #define UCD_FEC 5 #define UCD_FEC_CODEWORD 6 #define UCD_SCRAMBLER_SEED 7 #define UCD_MAX_BURST 8 #define UCD_GUARD_TIME 9 #define UCD_LAST_CW_LEN 10 #define UCD_SCRAMBLER_ONOFF 11 #define UCD_RS_INT_DEPTH 12 #define UCD_RS_INT_BLOCK 13 #define UCD_PREAMBLE_TYPE 14 #define UCD_SCMDA_SCRAMBLER_ONOFF 15 #define UCD_SCDMA_CODES_PER_SUBFRAME 16 #define UCD_SCDMA_FRAMER_INT_STEP_SIZE 17 #define UCD_TCM_ENABLED 18 #define IUC_REQUEST 1 #define IUC_REQ_DATA 2 #define IUC_INIT_MAINT 3 #define IUC_STATION_MAINT 4 #define IUC_SHORT_DATA_GRANT 5 #define IUC_LONG_DATA_GRANT 6 #define IUC_NULL_IE 7 #define IUC_DATA_ACK 8 #define IUC_ADV_PHY_SHORT_DATA_GRANT 9 #define IUC_ADV_PHY_LONG_DATA_GRANT 10 #define IUC_ADV_PHY_UGS 11 #define IUC_RESERVED12 12 #define IUC_RESERVED13 13 #define IUC_RESERVED14 14 #define IUC_EXPANSION 15 /* Initialize the protocol and registered fields */ static int proto_docsis_ucd = -1; static int hf_docsis_ucd_upstream_chid = -1; static int hf_docsis_ucd_config_ch_cnt = -1; static int hf_docsis_ucd_mini_slot_size = -1; static int hf_docsis_ucd_down_chid = -1; static int hf_docsis_ucd_type = -1; static int hf_docsis_ucd_length = -1; static int hf_docsis_ucd_symbol_rate = -1; static int hf_docsis_ucd_frequency = -1; static int hf_docsis_ucd_preamble_pat = -1; static int hf_docsis_ucd_iuc = -1; static int hf_docsis_burst_mod_type = -1; static int hf_docsis_burst_diff_encoding = -1; static int hf_docsis_burst_preamble_len = -1; static int hf_docsis_burst_preamble_val_off = -1; static int hf_docsis_burst_fec = -1; static int hf_docsis_burst_fec_codeword = -1; static int hf_docsis_burst_scrambler_seed = -1; static int hf_docsis_burst_max_burst = -1; static int hf_docsis_burst_guard_time = -1; static int hf_docsis_burst_last_cw_len = -1; static int hf_docsis_burst_scrambler_onoff = -1; static int hf_docsis_rs_int_depth = -1; static int hf_docsis_rs_int_block = -1; static int hf_docsis_preamble_type = -1; static int hf_docsis_scdma_scrambler_onoff = -1; static int hf_docsis_scdma_codes_per_subframe = -1; static int hf_docsis_scdma_framer_int_step_size = -1; static int hf_docsis_tcm_enabled = -1; /* Initialize the subtree pointers */ static gint ett_docsis_ucd = -1; static gint ett_tlv = -1; static const value_string channel_tlv_vals[] = { {UCD_SYMBOL_RATE, "Symbol Rate"}, {UCD_FREQUENCY, "Frequency"}, {UCD_PREAMBLE, "Preamble Pattern"}, {UCD_BURST_DESCR, "Burst Descriptor"}, {UCD_BURST_DESCR5, "Burst Descriptor DOCSIS 2.0"}, {0, NULL} }; static const value_string on_off_vals[] = { {1, "On"}, {2, "Off"}, {0, NULL} }; static const value_string mod_vals[] = { {1, "QPSK"}, {2, "QAM16"}, {0, NULL} }; value_string iuc_vals[] = { {IUC_REQUEST, "Request"}, {IUC_REQ_DATA, "REQ/Data"}, {IUC_INIT_MAINT, "Initial Maintenance"}, {IUC_STATION_MAINT, "Station Maintenance"}, {IUC_SHORT_DATA_GRANT, "Short Data Grant"}, {IUC_LONG_DATA_GRANT, "Long Data Grant"}, {IUC_NULL_IE, "NULL IE"}, {IUC_DATA_ACK, "Data Ack"}, {IUC_ADV_PHY_SHORT_DATA_GRANT, "Advanced Phy Short Data Grant"}, {IUC_ADV_PHY_LONG_DATA_GRANT, "Advanced Phy Long Data Grant"}, {IUC_ADV_PHY_UGS, "Advanced Phy UGS"}, {IUC_RESERVED12, "Reserved"}, {IUC_RESERVED13, "Reserved"}, {IUC_RESERVED14, "Reserved"}, {IUC_EXPANSION, "Expanded IUC"}, {0, NULL} }; static const value_string last_cw_len_vals[] = { {1, "Fixed"}, {2, "Shortened"}, {0, NULL} }; /* Code to actually dissect the packets */ static void dissect_ucd (tvbuff_t * tvb, packet_info * pinfo, proto_tree * tree) { int pos, endtlvpos; guint8 type, length; guint8 tlvlen, tlvtype; proto_tree *ucd_tree; proto_item *ucd_item; proto_tree *tlv_tree; proto_item *tlv_item; gint len; guint8 upchid, symrate; len = tvb_reported_length_remaining (tvb, 0); upchid = tvb_get_guint8 (tvb, 0); /* if the upstream Channel ID is 0 then this is for Telephony Return) */ if (check_col (pinfo->cinfo, COL_INFO)) { col_clear (pinfo->cinfo, COL_INFO); if (upchid > 0) col_add_fstr (pinfo->cinfo, COL_INFO, "UCD Message: Channel ID = %u (U%u)", upchid, upchid - 1); else col_add_fstr (pinfo->cinfo, COL_INFO, "UCD Message: Channel ID = %u (Telephony Return)", upchid); } if (tree) { ucd_item = proto_tree_add_protocol_format (tree, proto_docsis_ucd, tvb, 0, -1, "UCD Message"); ucd_tree = proto_item_add_subtree (ucd_item, ett_docsis_ucd); proto_tree_add_item (ucd_tree, hf_docsis_ucd_upstream_chid, tvb, 0, 1, FALSE); proto_tree_add_item (ucd_tree, hf_docsis_ucd_config_ch_cnt, tvb, 1, 1, FALSE); proto_tree_add_item (ucd_tree, hf_docsis_ucd_mini_slot_size, tvb, 2, 1, FALSE); proto_tree_add_item (ucd_tree, hf_docsis_ucd_down_chid, tvb, 3, 1, FALSE); pos = 4; while (pos < len) { type = tvb_get_guint8 (tvb, pos); tlv_item = proto_tree_add_text (ucd_tree, tvb, pos, -1, "%s", val_to_str(type, channel_tlv_vals, "Unknown TLV (%u)")); tlv_tree = proto_item_add_subtree (tlv_item, ett_tlv); proto_tree_add_uint (tlv_tree, hf_docsis_ucd_type, tvb, pos, 1, type); pos++; length = tvb_get_guint8 (tvb, pos); proto_tree_add_uint (tlv_tree, hf_docsis_ucd_length, tvb, pos, 1, length); pos++; proto_item_set_len(tlv_item, length + 2); switch (type) { case UCD_SYMBOL_RATE: if (length == 1) { symrate = tvb_get_guint8 (tvb, pos); proto_tree_add_uint (tlv_tree, hf_docsis_ucd_symbol_rate, tvb, pos, length, symrate * 160); } else { THROW (ReportedBoundsError); } pos = pos + length; break; case UCD_FREQUENCY: if (length == 4) { proto_tree_add_item (tlv_tree, hf_docsis_ucd_frequency, tvb, pos, length, FALSE); pos = pos + length; } else { THROW (ReportedBoundsError); } break; case UCD_PREAMBLE: proto_tree_add_item (tlv_tree, hf_docsis_ucd_preamble_pat, tvb, pos, length, FALSE); pos = pos + length; break; case UCD_BURST_DESCR: proto_tree_add_item (tlv_tree, hf_docsis_ucd_iuc, tvb, pos++, 1, FALSE); endtlvpos = pos + length - 1; while (pos < endtlvpos) { tlvtype = tvb_get_guint8 (tvb, pos++); tlvlen = tvb_get_guint8 (tvb, pos++); switch (tlvtype) { case UCD_MODULATION: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_mod_type, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_DIFF_ENCODING: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_diff_encoding, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_PREAMBLE_LEN: if (tlvlen == 2) { proto_tree_add_item (tlv_tree, hf_docsis_burst_preamble_len, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_PREAMBLE_VAL_OFF: if (tlvlen == 2) { proto_tree_add_item (tlv_tree, hf_docsis_burst_preamble_val_off, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_FEC: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_fec, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_FEC_CODEWORD: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_fec_codeword, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_SCRAMBLER_SEED: if (tlvlen == 2) { proto_tree_add_item (tlv_tree, hf_docsis_burst_scrambler_seed, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_MAX_BURST: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_max_burst, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_GUARD_TIME: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_guard_time, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_LAST_CW_LEN: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_last_cw_len, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_SCRAMBLER_ONOFF: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_scrambler_onoff, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; } /* switch(tlvtype) */ pos = pos + tlvlen; } /* while (pos < endtlvpos) */ break; case UCD_BURST_DESCR5: /* DOCSIS 2.0 Upstream Channel Descriptor */ proto_tree_add_item (tlv_tree, hf_docsis_ucd_iuc, tvb, pos++, 1, FALSE); endtlvpos = pos + length - 1; while (pos < endtlvpos) { tlvtype = tvb_get_guint8 (tvb, pos++); tlvlen = tvb_get_guint8 (tvb, pos++); switch (tlvtype) { case UCD_MODULATION: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_mod_type, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_DIFF_ENCODING: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_diff_encoding, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_PREAMBLE_LEN: if (tlvlen == 2) { proto_tree_add_item (tlv_tree, hf_docsis_burst_preamble_len, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_PREAMBLE_VAL_OFF: if (tlvlen == 2) { proto_tree_add_item (tlv_tree, hf_docsis_burst_preamble_val_off, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_FEC: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_fec, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_FEC_CODEWORD: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_fec_codeword, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_SCRAMBLER_SEED: if (tlvlen == 2) { proto_tree_add_item (tlv_tree, hf_docsis_burst_scrambler_seed, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_MAX_BURST: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_max_burst, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_GUARD_TIME: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_guard_time, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_LAST_CW_LEN: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_last_cw_len, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_SCRAMBLER_ONOFF: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_burst_scrambler_onoff, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; /* New cases added for DOCSIS 2.0 US Physical Burst Descriptor TLV */ /* #define UCD_RS_INT_DEPTH 12 * * #define UCD_RS_INT_BLOCK 13 * * #define UCD_PREAMBLE_TYPE 14 * * #define UCD_SCMDA_SCRAMBLER_ONOFF 15 * * #define UCD_SCDMA_CODES_PER_SUBFRAME 16 * * #define UCD_SCDMA_FRAMER_INT_STEP_SIZE 17 * * #define UCD_TCM_ENABLED 18 * */ case UCD_RS_INT_DEPTH: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_rs_int_depth, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_RS_INT_BLOCK: if (tlvlen == 2) { proto_tree_add_item (tlv_tree, hf_docsis_rs_int_block, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_PREAMBLE_TYPE: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_preamble_type, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_SCMDA_SCRAMBLER_ONOFF: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_scdma_scrambler_onoff, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_SCDMA_CODES_PER_SUBFRAME: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_scdma_codes_per_subframe, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_SCDMA_FRAMER_INT_STEP_SIZE: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_scdma_framer_int_step_size, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; case UCD_TCM_ENABLED: if (tlvlen == 1) { proto_tree_add_item (tlv_tree, hf_docsis_tcm_enabled, tvb, pos, tlvlen, FALSE); } else { THROW (ReportedBoundsError); } break; } /* switch(tlvtype) */ pos = pos + tlvlen; } /* while (pos < endtlvpos) */ break; } /* switch(type) */ } /* while (pos < len) */ } /* if (tree) */ } /* Register the protocol with Ethereal */ /* this format is require because a script is used to build the C function that calls all the protocol registration. */ void proto_register_docsis_ucd (void) { /* Setup list of header fields See Section 1.6.1 for details*/ static hf_register_info hf[] = { {&hf_docsis_ucd_upstream_chid, {"Upstream Channel ID", "docsis.ucd.upchid", FT_UINT8, BASE_DEC, NULL, 0x0, "Upstream Channel ID", HFILL} }, {&hf_docsis_ucd_config_ch_cnt, {"Config Change Count", "docsis.ucd.confcngcnt", FT_UINT8, BASE_DEC, NULL, 0x0, "Configuration Change Count", HFILL} }, {&hf_docsis_ucd_mini_slot_size, {"Mini Slot Size (6.25us TimeTicks)", "docsis.ucd.mslotsize", FT_UINT8, BASE_DEC, NULL, 0x0, "Mini Slot Size (6.25us TimeTicks)", HFILL} }, {&hf_docsis_ucd_down_chid, {"Downstream Channel ID", "docsis.ucd.downchid", FT_UINT8, BASE_DEC, NULL, 0x0, "Management Message", HFILL} }, {&hf_docsis_ucd_type, {"TLV Type", "docsis.ucd.type", FT_UINT8, BASE_DEC, VALS(channel_tlv_vals), 0x0, "Channel TLV type", HFILL} }, {&hf_docsis_ucd_length, {"TLV Length", "docsis.ucd.length", FT_UINT8, BASE_DEC, NULL, 0x0, "Channel TLV length", HFILL} }, {&hf_docsis_ucd_symbol_rate, {"Symbol Rate (ksym/sec)", "docsis.ucd.symrate", FT_UINT8, BASE_DEC, NULL, 0x0, "Symbol Rate", HFILL} }, {&hf_docsis_ucd_frequency, {"Frequency (Hz)", "docsis.ucd.freq", FT_UINT32, BASE_DEC, NULL, 0x0, "Upstream Center Frequency", HFILL} }, {&hf_docsis_ucd_preamble_pat, {"Preamble Pattern", "docsis.ucd.preamble", FT_BYTES, BASE_HEX, NULL, 0x0, "Preamble Superstring", HFILL} }, {&hf_docsis_ucd_iuc, {"Interval Usage Code", "docsis.ucd.iuc", FT_UINT8, BASE_DEC, VALS (iuc_vals), 0x0, "Interval Usage Code", HFILL} }, {&hf_docsis_burst_mod_type, {"1 Modulation Type", "docsis.ucd.burst.modtype", FT_UINT8, BASE_DEC, VALS (mod_vals), 0x0, "Modulation Type", HFILL} }, {&hf_docsis_burst_diff_encoding, {"2 Differential Encoding", "docsis.ucd.burst.diffenc", FT_UINT8, BASE_DEC, VALS (on_off_vals), 0x0, "Differential Encoding", HFILL} }, {&hf_docsis_burst_preamble_len, {"3 Preamble Length (Bits)", "docsis.ucd.burst.preamble_len", FT_UINT16, BASE_DEC, NULL, 0x0, "Preamble Length (Bits)", HFILL} }, {&hf_docsis_burst_preamble_val_off, {"4 Preamble Offset (Bits)", "docsis.ucd.burst.preamble_off", FT_UINT16, BASE_DEC, NULL, 0x0, "Preamble Offset (Bits)", HFILL} }, {&hf_docsis_burst_fec, {"5 FEC (T)", "docsis.ucd.burst.fec", FT_UINT8, BASE_DEC, NULL, 0x0, "FEC (T) Codeword Parity Bits = 2^T", HFILL} }, {&hf_docsis_burst_fec_codeword, {"6 FEC Codeword Info bytes (k)", "docsis.ucd.burst.fec_codeword", FT_UINT8, BASE_DEC, NULL, 0x0, "FEC Codeword Info Bytes (k)", HFILL} }, {&hf_docsis_burst_scrambler_seed, {"7 Scrambler Seed", "docsis.ucd.burst.scrambler_seed", FT_UINT16, BASE_HEX, NULL, 0x0, "Burst Descriptor", HFILL} }, {&hf_docsis_burst_max_burst, {"8 Max Burst Size (Minislots)", "docsis.ucd.burst.maxburst", FT_UINT8, BASE_DEC, NULL, 0x0, "Max Burst Size (Minislots)", HFILL} }, {&hf_docsis_burst_guard_time, {"9 Guard Time Size (Symbol Times)", "docsis.ucd.burst.guardtime", FT_UINT8, BASE_DEC, NULL, 0x0, "Guard Time Size", HFILL} }, {&hf_docsis_burst_last_cw_len, {"10 Last Codeword Length", "docsis.ucd.burst.last_cw_len", FT_UINT8, BASE_DEC, VALS (last_cw_len_vals), 0x0, "Last Codeword Length", HFILL} }, {&hf_docsis_burst_scrambler_onoff, {"11 Scrambler On/Off", "docsis.ucd.burst.scrambleronoff", FT_UINT8, BASE_DEC, VALS (on_off_vals), 0x0, "Scrambler On/Off", HFILL} }, {&hf_docsis_rs_int_depth, {"12 RS Interleaver Depth", "docsis.ucd.burst.rsintdepth", FT_UINT8, BASE_DEC, NULL, 0x0, "R-S Interleaver Depth", HFILL} }, {&hf_docsis_rs_int_block, {"13 RS Interleaver Block Size", "docsis.ucd.burst.rsintblock", FT_UINT8, BASE_DEC, NULL, 0x0, "R-S Interleaver Block", HFILL} }, {&hf_docsis_preamble_type, {"14 Preamble Type", "docsis.ucd.burst.preambletype", FT_UINT8, BASE_DEC, NULL, 0x0, "Preamble Type", HFILL} }, {&hf_docsis_scdma_scrambler_onoff, {"15 SCDMA Scrambler On/Off", "docsis.ucd.burst.scdmascrambleronoff", FT_UINT8, BASE_DEC, VALS (on_off_vals), 0x0, "SCDMA Scrambler On/Off", HFILL} }, {&hf_docsis_scdma_codes_per_subframe, {"16 SCDMA Codes per Subframe", "docsis.ucd.burst.scdmacodespersubframe", FT_UINT8, BASE_DEC, NULL, 0x0, "SCDMA Codes per Subframe", HFILL} }, {&hf_docsis_scdma_framer_int_step_size, {"17 SDMA Framer Int Step Size", "docsis.ucd.burst.scdmaframerintstepsize", FT_UINT8, BASE_DEC, NULL, 0x0, "SCDMA Framer Interleaving Step Size", HFILL} }, {&hf_docsis_tcm_enabled, {"18 TCM Enable", "docsis.ucd.burst.tcmenabled", FT_UINT8, BASE_DEC, VALS (on_off_vals), 0x0, "TCM Enabled", HFILL} }, }; /* Setup protocol subtree array */ static gint *ett[] = { &ett_docsis_ucd, &ett_tlv, }; /* Register the protocol name and description */ proto_docsis_ucd = proto_register_protocol ("DOCSIS Upstream Channel Descriptor", "DOCSIS UCD", "docsis_ucd"); /* Required function calls to register the header fields and subtrees used */ proto_register_field_array (proto_docsis_ucd, hf, array_length (hf)); proto_register_subtree_array (ett, array_length (ett)); register_dissector ("docsis_ucd", dissect_ucd, proto_docsis_ucd); } /* If this dissector uses sub-dissector registration add a registration routine. This format is required because a script is used to find these routines and create the code that calls these routines. */ void proto_reg_handoff_docsis_ucd (void) { dissector_handle_t docsis_ucd_handle; docsis_ucd_handle = find_dissector ("docsis_ucd"); dissector_add ("docsis_mgmt", 0x02, docsis_ucd_handle); }