/builds/wireshark/wireshark/epan/dissectors/packet-nmea0183.c

Bug Summary

File:	epan/dissectors/packet-nmea0183.c
Warning:	line 1806, column 5 Value stored to 'offset' is never read

Annotated Source Code

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clang -cc1 -cc1 -triple x86_64-pc-linux-gnu -analyze -disable-free -clear-ast-before-backend -disable-llvm-verifier -discard-value-names -main-file-name packet-nmea0183.c -analyzer-checker=core -analyzer-checker=apiModeling -analyzer-checker=unix -analyzer-checker=deadcode -analyzer-checker=security.insecureAPI.UncheckedReturn -analyzer-checker=security.insecureAPI.getpw -analyzer-checker=security.insecureAPI.gets -analyzer-checker=security.insecureAPI.mktemp -analyzer-checker=security.insecureAPI.mkstemp -analyzer-checker=security.insecureAPI.vfork -analyzer-checker=nullability.NullPassedToNonnull -analyzer-checker=nullability.NullReturnedFromNonnull -analyzer-output plist -w -setup-static-analyzer -mrelocation-model pic -pic-level 2 -fhalf-no-semantic-interposition -fno-delete-null-pointer-checks -mframe-pointer=all -relaxed-aliasing -fmath-errno -ffp-contract=on -fno-rounding-math -ffloat16-excess-precision=fast -fbfloat16-excess-precision=fast -mconstructor-aliases -funwind-tables=2 -target-cpu x86-64 -tune-cpu generic -debugger-tuning=gdb -fdebug-compilation-dir=/builds/wireshark/wireshark/build -fcoverage-compilation-dir=/builds/wireshark/wireshark/build -resource-dir /usr/lib/llvm-21/lib/clang/21 -isystem /usr/include/glib-2.0 -isystem /usr/lib/x86_64-linux-gnu/glib-2.0/include -isystem /builds/wireshark/wireshark/epan/dissectors -isystem /builds/wireshark/wireshark/build/epan/dissectors -isystem /usr/include/mit-krb5 -isystem /usr/include/libxml2 -isystem /builds/wireshark/wireshark/epan -D G_DISABLE_DEPRECATED -D G_DISABLE_SINGLE_INCLUDES -D WS_BUILD_DLL -D WS_DEBUG -D WS_DEBUG_UTF_8 -I /builds/wireshark/wireshark/build -I /builds/wireshark/wireshark -I /builds/wireshark/wireshark/include -D _GLIBCXX_ASSERTIONS -internal-isystem /usr/lib/llvm-21/lib/clang/21/include -internal-isystem /usr/local/include -internal-isystem /usr/lib/gcc/x86_64-linux-gnu/14/../../../../x86_64-linux-gnu/include -internal-externc-isystem /usr/include/x86_64-linux-gnu -internal-externc-isystem /include -internal-externc-isystem /usr/include -fmacro-prefix-map=/builds/wireshark/wireshark/= -fmacro-prefix-map=/builds/wireshark/wireshark/build/= -fmacro-prefix-map=../= -Wno-format-nonliteral -std=gnu11 -ferror-limit 19 -fvisibility=hidden -fwrapv -fwrapv-pointer -fstrict-flex-arrays=3 -stack-protector 2 -fstack-clash-protection -fcf-protection=full -fgnuc-version=4.2.1 -fskip-odr-check-in-gmf -fexceptions -fcolor-diagnostics -analyzer-output=html -faddrsig -D__GCC_HAVE_DWARF2_CFI_ASM=1 -o /builds/wireshark/wireshark/sbout/2025-12-10-100316-3573-1 -x c /builds/wireshark/wireshark/epan/dissectors/packet-nmea0183.c

1	/* packet-nmea0183.c
2	* Routines for NMEA 0183 protocol dissection
3	* Copyright 2024 Casper Meijn <[email protected]>
4	*
5	* Wireshark - Network traffic analyzer
6	* By Gerald Combs <[email protected]>
7	* Copyright 1998 Gerald Combs
8	*
9	* SPDX-License-Identifier: GPL-2.0-or-later
10	*/
11
12	#include "config.h"
13	#include <epan/packet.h>
14	#include <epan/expert.h>
15
16
17	/*
18	* null-terminated sentence prefix string "UdPbC"
19	*/
20	#define UDPBC"UdPbC" "UdPbC"
21	#define RRUDP"RrUdP" "RrUdP"
22	#define RAUDP"RaUdp" "RaUdp"
23	#define RPUDP"RpUdP" "RpUdP"
24	#define NMEA0183_CRLF0x0d0a 0x0d0a
25
26	static int hf_nmea0183_talker_id;
27	static int hf_nmea0183_sentence_id;
28	static int hf_nmea0183_unknown_field;
29	static int hf_nmea0183_checksum;
30	static int hf_nmea0183_checksum_calculated;
31
32	static int hf_nmea0183_dpt_depth;
33	static int hf_nmea0183_dpt_offset;
34	static int hf_nmea0183_dpt_max_range;
35
36	static int hf_nmea0183_hdt_heading;
37	static int hf_nmea0183_hdt_unit;
38
39	static int hf_nmea0183_alr_time;
40	static int hf_nmea0183_alr_time_hour;
41	static int hf_nmea0183_alr_time_minute;
42	static int hf_nmea0183_alr_time_second;
43	static int hf_nmea0183_alr_alarm_id;
44	static int hf_nmea0183_alr_alarm_cond;
45	static int hf_nmea0183_alr_alarm_ack_st;
46	static int hf_nmea0183_alr_alarm_desc_txt;
47
48	static int hf_nmea0183_gga_time;
49	static int hf_nmea0183_gga_time_hour;
50	static int hf_nmea0183_gga_time_minute;
51	static int hf_nmea0183_gga_time_second;
52	static int hf_nmea0183_gga_latitude;
53	static int hf_nmea0183_gga_latitude_degree;
54	static int hf_nmea0183_gga_latitude_minute;
55	static int hf_nmea0183_gga_latitude_direction;
56	static int hf_nmea0183_gga_longitude;
57	static int hf_nmea0183_gga_longitude_degree;
58	static int hf_nmea0183_gga_longitude_minute;
59	static int hf_nmea0183_gga_longitude_direction;
60	static int hf_nmea0183_gga_quality;
61	static int hf_nmea0183_gga_number_satellites;
62	static int hf_nmea0183_gga_horizontal_dilution;
63	static int hf_nmea0183_gga_altitude;
64	static int hf_nmea0183_gga_altitude_unit;
65	static int hf_nmea0183_gga_geoidal_separation;
66	static int hf_nmea0183_gga_geoidal_separation_unit;
67	static int hf_nmea0183_gga_age_dgps;
68	static int hf_nmea0183_gga_dgps_station;
69
70	static int hf_nmea0183_gll_latitude;
71	static int hf_nmea0183_gll_latitude_degree;
72	static int hf_nmea0183_gll_latitude_minute;
73	static int hf_nmea0183_gll_latitude_direction;
74	static int hf_nmea0183_gll_longitude;
75	static int hf_nmea0183_gll_longitude_degree;
76	static int hf_nmea0183_gll_longitude_minute;
77	static int hf_nmea0183_gll_longitude_direction;
78	static int hf_nmea0183_gll_time;
79	static int hf_nmea0183_gll_time_hour;
80	static int hf_nmea0183_gll_time_minute;
81	static int hf_nmea0183_gll_time_second;
82	static int hf_nmea0183_gll_status;
83	static int hf_nmea0183_gll_mode;
84
85	static int hf_nmea0183_gst_time;
86	static int hf_nmea0183_gst_time_hour;
87	static int hf_nmea0183_gst_time_minute;
88	static int hf_nmea0183_gst_time_second;
89	static int hf_nmea0183_gst_rms_total_sd;
90	static int hf_nmea0183_gst_ellipse_major_sd;
91	static int hf_nmea0183_gst_ellipse_minor_sd;
92	static int hf_nmea0183_gst_ellipse_orientation;
93	static int hf_nmea0183_gst_latitude_sd;
94	static int hf_nmea0183_gst_longitude_sd;
95	static int hf_nmea0183_gst_altitude_sd;
96
97	static int hf_nmea0183_rot_rate_of_turn;
98	static int hf_nmea0183_rot_valid;
99	static int hf_nmea0183_txt_num;
100	static int hf_nmea0183_txt_sent_num;
101	static int hf_nmea0183_txt_id;
102	static int hf_nmea0183_txt_msg;
103
104	static int hf_nmea0183_vbw_water_speed_longitudinal;
105	static int hf_nmea0183_vbw_water_speed_transverse;
106	static int hf_nmea0183_vbw_water_speed_valid;
107	static int hf_nmea0183_vbw_ground_speed_longitudinal;
108	static int hf_nmea0183_vbw_ground_speed_transverse;
109	static int hf_nmea0183_vbw_ground_speed_valid;
110	static int hf_nmea0183_vbw_stern_water_speed;
111	static int hf_nmea0183_vbw_stern_water_speed_valid;
112	static int hf_nmea0183_vbw_stern_ground_speed;
113	static int hf_nmea0183_vbw_stern_ground_speed_valid;
114
115	static int hf_nmea0183_vhw_true_heading;
116	static int hf_nmea0183_vhw_true_heading_unit;
117	static int hf_nmea0183_vhw_magnetic_heading;
118	static int hf_nmea0183_vhw_magnetic_heading_unit;
119	static int hf_nmea0183_vhw_water_speed_knot;
120	static int hf_nmea0183_vhw_water_speed_knot_unit;
121	static int hf_nmea0183_vhw_water_speed_kilometer;
122	static int hf_nmea0183_vhw_water_speed_kilometer_unit;
123
124	static int hf_nmea0183_vlw_cumulative_water;
125	static int hf_nmea0183_vlw_cumulative_water_unit;
126	static int hf_nmea0183_vlw_trip_water;
127	static int hf_nmea0183_vlw_trip_water_unit;
128	static int hf_nmea0183_vlw_cumulative_ground;
129	static int hf_nmea0183_vlw_cumulative_ground_unit;
130	static int hf_nmea0183_vlw_trip_ground;
131	static int hf_nmea0183_vlw_trip_ground_unit;
132
133	static int hf_nmea0183_vtg_true_course;
134	static int hf_nmea0183_vtg_true_course_unit;
135	static int hf_nmea0183_vtg_magnetic_course;
136	static int hf_nmea0183_vtg_magnetic_course_unit;
137	static int hf_nmea0183_vtg_ground_speed_knot;
138	static int hf_nmea0183_vtg_ground_speed_knot_unit;
139	static int hf_nmea0183_vtg_ground_speed_kilometer;
140	static int hf_nmea0183_vtg_ground_speed_kilometer_unit;
141	static int hf_nmea0183_vtg_mode;
142
143	static int hf_nmea0183_zda_time;
144	static int hf_nmea0183_zda_time_hour;
145	static int hf_nmea0183_zda_time_minute;
146	static int hf_nmea0183_zda_time_second;
147	static int hf_nmea0183_zda_date_day;
148	static int hf_nmea0183_zda_date_month;
149	static int hf_nmea0183_zda_date_year;
150	static int hf_nmea0183_zda_local_zone_hour;
151	static int hf_nmea0183_zda_local_zone_minute;
152
153	static int hf_nmea0183_sentence_prefix;
154	static int hf_nmea0183_tag_block;
155	static int hf_nmea0183_bin_version;
156	static int hf_nmea0183_bin_srcid;
157	static int hf_nmea0183_bin_dstid;
158	static int hf_nmea0183_bin_mtype;
159	static int hf_nmea0183_bin_blockid;
160	static int hf_nmea0183_bin_seqnum;
161	static int hf_nmea0183_bin_max_seqnum;
162	static int hf_nmea0183_bin_data;
163	static int hf_nmea0183_bin_file_descriptor;
164	static int hf_nmea0183_bin_file_descriptor_len;
165	static int hf_nmea0183_bin_file_length;
166	static int hf_nmea0183_bin_stat_of_acquisition;
167	static int hf_nmea0183_bin_device;
168	static int hf_nmea0183_bin_channel;
169	static int hf_nmea0183_bin_type_len;
170	static int hf_nmea0183_bin_data_type;
171	static int hf_nmea0183_bin_status_and_info;
172
173	static int ett_nmea0183;
174	static int ett_nmea0183_checksum;
175	static int ett_nmea0183_sentence;
176	static int ett_nmea0183_zda_time;
177	static int ett_nmea0183_alr_time;
178	static int ett_nmea0183_gga_time;
179	static int ett_nmea0183_gga_latitude;
180	static int ett_nmea0183_gga_longitude;
181	static int ett_nmea0183_gll_time;
182	static int ett_nmea0183_gll_latitude;
183	static int ett_nmea0183_gll_longitude;
184	static int ett_nmea0183_gst_time;
185	static int ett_nmea0183_tag_block;
186	static int ett_nmea0183_fd;
187
188	static expert_field ei_nmea0183_invalid_first_character;
189	static expert_field ei_nmea0183_missing_checksum_character;
190	static expert_field ei_nmea0183_invalid_end_of_line;
191	static expert_field ei_nmea0183_checksum_incorrect;
192	static expert_field ei_nmea0183_sentence_too_long;
193	static expert_field ei_nmea0183_field_time_too_short;
194	static expert_field ei_nmea0183_field_latitude_too_short;
195	static expert_field ei_nmea0183_field_longitude_too_short;
196	static expert_field ei_nmea0183_field_missing;
197	static expert_field ei_nmea0183_gga_altitude_unit_incorrect;
198	static expert_field ei_nmea0183_gga_geoidal_separation_unit_incorrect;
199	static expert_field ei_nmea0183_hdt_unit_incorrect;
200	static expert_field ei_nmea0183_vhw_true_heading_unit_incorrect;
201	static expert_field ei_nmea0183_vhw_magnetic_heading_unit_incorrect;
202	static expert_field ei_nmea0183_vhw_water_speed_knot_unit_incorrect;
203	static expert_field ei_nmea0183_vhw_water_speed_kilometer_unit_incorrect;
204	static expert_field ei_nmea0183_vlw_cumulative_water_unit_incorrect;
205	static expert_field ei_nmea0183_vlw_trip_water_unit_incorrect;
206	static expert_field ei_nmea0183_vlw_cumulative_ground_unit_incorrect;
207	static expert_field ei_nmea0183_vlw_trip_ground_unit_incorrect;
208	static expert_field ei_nmea0183_vtg_true_course_unit_incorrect;
209	static expert_field ei_nmea0183_vtg_magnetic_course_unit_incorrect;
210	static expert_field ei_nmea0183_vtg_ground_speed_knot_unit_incorrect;
211	static expert_field ei_nmea0183_vtg_ground_speed_kilometer_unit_incorrect;
212
213	static int proto_nmea0183;
214	static int proto_nmea0183_bin;
215
216	static dissector_handle_t nmea0183_handle;
217
218	// List of known Talker IDs (Source: NMEA Revealed by Eric S. Raymond, https://gpsd.gitlab.io/gpsd/NMEA.html, retrieved 2023-01-26)
219	static const string_string known_talker_ids[] = {
220	{"AB", "Independent AIS Base Station"},
221	{"AD", "Dependent AIS Base Station"},
222	{"AG", "Autopilot - General"},
223	{"AI", "Mobile AIS Station"},
224	{"AN", "AIS Aid to Navigation"},
225	{"AP", "Autopilot - Magnetic"},
226	{"AR", "AIS Receiving Station"},
227	{"AT", "AIS Transmitting Station"},
228	{"AX", "AIS Simplex Repeater"},
229	{"BD", "BeiDou (China)"},
230	{"BI", "Bilge System"},
231	{"BN", "Bridge navigational watch alarm system"},
232	{"BS", "Base AIS Station"},
233	{"CA", "Central Alarm"},
234	{"CC", "Computer - Programmed Calculator (obsolete)"},
235	{"CD", "Communications - Digital Selective Calling (DSC)"},
236	{"CM", "Computer - Memory Data (obsolete)"},
237	{"CR", "Communications - Data Receiver"},
238	{"CS", "Communications - Satellite"},
239	{"CT", "Communications - Radio-Telephone (MF/HF)"},
240	{"CV", "Communications - Radio-Telephone (VHF)"},
241	{"CX", "Communications - Scanning Receiver"},
242	{"DE", "DECCA Navigation (obsolete)"},
243	{"DF", "Direction Finder"},
244	{"DM", "Velocity Sensor, Speed Log, Water, Magnetic"},
245	{"DP", "Dynamiv Position"},
246	{"DU", "Duplex repeater station"},
247	{"EC", "Electronic Chart System (ECS)"},
248	{"EI", "Electronic Chart Display & Information System (ECDIS)"},
249	{"EP", "Emergency Position Indicating Beacon (EPIRB)"},
250	{"ER", "Engine Room Monitoring Systems"},
251	{"FD", "Fire Door"},
252	{"FE", "Fire Extinguisher System"},
253	{"FR", "Fire Detection System"},
254	{"FS", "Fire Sprinkler"},
255	{"GA", "Galileo Positioning System"},
256	{"GB", "BeiDou (China)"},
257	{"GI", "NavIC, IRNSS (India)"},
258	{"GL", "GLONASS, according to IEIC 61162-1"},
259	{"GN", "Combination of multiple satellite systems (NMEA 1083)"},
260	{"GP", "Global Positioning System receiver"},
261	{"GQ", "QZSS regional GPS augmentation system (Japan)"},
262	{"HC", "Heading - Magnetic Compass"},
263	{"HD", "Hull Door"},
264	{"HE", "Heading - North Seeking Gyro"},
265	{"HF", "Heading - Fluxgate"},
266	{"HN", "Heading - Non North Seeking Gyro"},
267	{"HS", "Hull Stress"},
268	{"II", "Integrated Instrumentation"},
269	{"IN", "Integrated Navigation"},
270	{"JA", "Alarm and Monitoring"},
271	{"JB", "Water Monitoring"},
272	{"JC", "Power Management"},
273	{"JD", "Propulsion Control"},
274	{"JE", "Engine Control"},
275	{"JF", "Propulsion Boiler"},
276	{"JG", "Aux Boiler"},
277	{"JH", "Engine Governor"},
278	{"LA", "Loran A (obsolete)"},
279	{"LC", "Loran C (obsolete)"},
280	{"MP", "Microwave Positioning System (obsolete)"},
281	{"MX", "Multiplexer"},
282	{"NL", "Navigation light controller"},
283	{"NV", "Night Vision"},
284	{"OM", "OMEGA Navigation System (obsolete)"},
285	{"OS", "Distress Alarm System (obsolete)"},
286	{"P ", "Vendor specific"},
287	{"QZ", "QZSS regional GPS augmentation system (Japan)"},
288	{"RA", "RADAR and/or ARPA"},
289	{"RB", "Record Book"},
290	{"RC", "Propulsion Machinery including Remote Control"},
291	{"RI", "Rudder Angle Indicator"},
292	{"SA", "Physical Shore AUS Station"},
293	{"SC", "Steering Control System/Device"},
294	{"SD", "Depth Sounder"},
295	{"SG", "Steering Gear"},
296	{"SN", "Electronic Positioning System, other/general"},
297	{"SS", "Scanning Sounder"},
298	{"ST", "Skytraq debug output"},
299	{"TC", "Track Control"},
300	{"TI", "Turn Rate Indicator"},
301	{"TR", "TRANSIT Navigation System"},
302	{"U0", "User Configured 0"},
303	{"U1", "User Configured 1"},
304	{"U2", "User Configured 2"},
305	{"U3", "User Configured 3"},
306	{"U4", "User Configured 4"},
307	{"U5", "User Configured 5"},
308	{"U6", "User Configured 6"},
309	{"U7", "User Configured 7"},
310	{"U8", "User Configured 8"},
311	{"U9", "User Configured 9"},
312	{"UP", "Microprocessor controller"},
313	{"VA", "VHF Data Exchange System (VDES), ASM"},
314	{"VD", "Velocity Sensor, Doppler, other/general"},
315	{"VM", "Velocity Sensor, Speed Log, Water, Magnetic"},
316	{"VR", "Voyage Data recorder"},
317	{"VS", "VHF Data Exchange System (VDES), Satellite"},
318	{"VT", "VHF Data Exchange System (VDES), Terrestrial"},
319	{"VW", "Velocity Sensor, Speed Log, Water, Mechanical"},
320	{"WD", "Watertight Door"},
321	{"WI", "Weather Instruments"},
322	{"WL", "Water Level"},
323	{"YC", "Transducer - Temperature (obsolete)"},
324	{"YD", "Transducer - Displacement, Angular or Linear (obsolete)"},
325	{"YF", "Transducer - Frequency (obsolete)"},
326	{"YL", "Transducer - Level (obsolete)"},
327	{"YP", "Transducer - Pressure (obsolete)"},
328	{"YR", "Transducer - Flow Rate (obsolete)"},
329	{"YT", "Transducer - Tachometer (obsolete)"},
330	{"YV", "Transducer - Volume (obsolete)"},
331	{"YX", "Transducer"},
332	{"ZA", "Timekeeper - Atomic Clock"},
333	{"ZC", "Timekeeper - Chronometer"},
334	{"ZQ", "Timekeeper - Quartz"},
335	{"ZV", "Timekeeper - Radio Update, WWV or WWVH"},
336	{NULL((void)0), NULL((void)0)}};
337
338	// List of known Sentence IDs (Source: NMEA Revealed by Eric S. Raymond, https://gpsd.gitlab.io/gpsd/NMEA.html, retrieved 2023-01-26)
339	static const string_string known_sentence_ids[] = {
340	{"AAM", "Waypoint Arrival Alarm"},
341	{"ABK", "UAIS Addressed and Binary Broadcast Acknowledgement"},
342	{"ACA", "UAIS Regional Channel Assignment Message"},
343	{"ACF", "General AtoN Station Configuration Command"},
344	{"ACG", "Extended General AtoN Station Configuration Command"},
345	{"ACK", "Alarm Acknowledgement"},
346	{"ACM", "Preparation and Initiation of an AIS Base Station Addressed Channel Management Message (Message 22)"},
347	{"ACS", "UAIS Channel Management Information Source"},
348	{"ADS", "Automatic Device Status"},
349	{"AFB", "AtoN Forced Broadcast Command"},
350	{"AGA", "Preparation and Initiation of an AIS Base Station Broadcast of a Group Assignment Message (Message 23)"},
351	{"AID", "AtoN Identification Configuration Command"},
352	{"AIR", "UAIS Interrogation Request"},
353	{"AKD", "Acknowledge Detail Alarm Condition"},
354	{"ALA", "Set Detail Alarm Condition"},
355	{"ALM", "GPS Almanac Data"},
356	{"ALR", "Set Alarm State"},
357	{"ARC", "Alert Command Refused"},
358	{"APA", "Autopilot Sentence A"},
359	{"APB", "Autopilot Sentence B"},
360	{"ASD", "Autopilot System Data"},
361	{"ASN", "Preparation and Initiation of an AIS Base Station Broadcast of Assignment VDL (Message 16)"},
362	{"BBM", "AIS Broadcast BinaryMessage"},
363	{"BCG", "Base Station Configuration, General Command"},
364	{"BCL", "Base Station Configuration, Location Command"},
365	{"BEC", "Bearing & Distance to Waypoint - Dead Reckoning"},
366	{"BER", "Bearing & Distance to Waypoint, Dead Reckoning, Rhumb Line"},
367	{"BOD", "Bearing - Waypoint to Waypoint"},
368	{"BPI", "Bearing & Distance to Point of Interest"},
369	{"BWC", "Bearing & Distance to Waypoint - Great Circle"},
370	{"BWR", "Bearing and Distance to Waypoint - Rhumb Line"},
371	{"BWW", "Bearing - Waypoint to Waypoint"},
372	{"CBR", "Configure Broadcast Rates for AIS AtoN Station Message Command"},
373	{"CEK", "Configure Encryption Key Command"},
374	{"COP", "Configure the Operational Period, Command"},
375	{"CPC", "Configure Parameter-Code for UNIX Time Parameter (c)"},
376	{"CPD", "Configure Parameter-Code for Destination-Identification Parameter (d)"},
377	{"CPG", "Configure Parameter-Code for the Sentence-Grouping Parameter (g)"},
378	{"CPN", "Configure Parameter-Code for the Line-Count Parameter (n)"},
379	{"CPR", "Configure Parameter-Code for Relative Time Parameter (r)"},
380	{"CPS", "Configure Parameter-Code for the Source-Identification Parameter (s)"},
381	{"CPT", "Configure Parameter-Code for General Alphanumeric String Parameter (t)"},
382	{"CUR", "Water Current Layer"},
383	{"DBK", "Echosounder - Depth Below Keel"},
384	{"DBS", "Echosounder - Depth Below Surface"},
385	{"DBT", "Echosounder - Depth Below Transducer"},
386	{"DCN", "DECCA Position"},
387	{"DCR", "Device Capability Report"},
388	{"DDC", "Display Dimming Control"},
389	{"DLM", "Data Link Management Slot Allocations for Base Station"},
390	{"DOR", "Door Status Detection"},
391	{"DPT", "Depth of Water"},
392	{"DRU", "Dual Doppler Auxiliary Data"},
393	{"DSC", "Digital Selective Calling Information"},
394	{"DSE", "Extended DSC"},
395	{"DSI", "DSC Transponder Initiate"},
396	{"DSR", "DSC Transponder Response"},
397	{"DTM", "Datum Reference"},
398	{"ECB", "Configure Broadcast Rates for Base Station Messages with Epoch Planning Support"},
399	{"ETL", "Engine Telegraph Operation Status"},
400	{"EVE", "General Event Message"},
401	{"FIR", "Fire Detection"},
402	{"FSI", "Frequency Set Information"},
403	{"FSR", "Frame Summary of AIS Reception"},
404	{"GAL", "Galileo Almanac Data"},
405	{"GBS", "GPS Satellite Fault Detection"},
406	{"GDA", "Dead Reckoning Positions"},
407	{"GEN", "Generic Binary/Status Information"},
408	{"GFA", "GNSS Fix Accuracy and Integrity"},
409	{"GGA", "Global Positioning System Fix Data"},
410	{"GLA", "Loran-C Positions"},
411	{"GLC", "Geographic Position, Loran-C"},
412	{"GLL", "Geographic Position - Latitude/Longitude"},
413	{"GMP", "GNSS Map Projection Fix Data"},
414	{"GNS", "GNSS Fix data"},
415	{"GOA", "OMEGA Positions"},
416	{"GRS", "GNSS Range Residuals"},
417	{"GSA", "GNSS DOP and Active Satellites"},
418	{"GST", "GNSS Pseudorange Noise Statistics"},
419	{"GSV", "GNSS Satellites in View"},
420	{"GTD", "Geographic Location in Time Differences"},
421	{"GXA", "TRANSIT Position"},
422	{"HBT", "Heartbeat Supervision Report"},
423	{"HCC", "Compass Heading"},
424	{"HCD", "Heading and Deviation"},
425	{"HDG", "Heading - Deviation & Variation"},
426	{"HDM", "Heading - Magnetic"},
427	{"HDT", "Heading - True"},
428	{"HFB", "Trawl Headrope to Footrope and Bottom"},
429	{"HMR", "Heading, Monitor Receive"},
430	{"HMS", "Heading, Monitor Set"},
431	{"HSC", "Heading Steering Command"},
432	{"HSS", "Hull Stress Surveillance Systems"},
433	{"HTC", "Heading/Track Control Command"},
434	{"HTD", "Heading/Track Control Data"},
435	{"HVD", "Magnetic Variation, Automatic"},
436	{"HVM", "Magnetic Variation, Manually Set"},
437	{"IMA", "Vessel Identification"},
438	{"ITS", "Trawl Door Spread 2 Distance"},
439	{"LCD", "Loran-C Signal Data"},
440	{"LR1", "UAIS Long-range Reply Sentence 1"},
441	{"LR2", "UAIS Long-range Reply Sentence 2"},
442	{"LR3", "UAIS Long-range Reply Sentence 3"},
443	{"LRF", "UAIS Long-Range Function"},
444	{"LRI", "UAIS Long-Range Interrogation"},
445	{"LTI", "UAIS Long-Range Interrogation"},
446	{"MDA", "Meteorological Composite"},
447	{"MEB", "Message Input for Broadcast, Command"},
448	{"MHU", "Humidity"},
449	{"MLA", "GLONASS Almanac Data"},
450	{"MMB", "Barometer"},
451	{"MSK", "Control for a Beacon Receiver"},
452	{"MSS", "Beacon Receiver Status"},
453	{"MTA", "Air Temperature"},
454	{"MTW", "Mean Temperature of Water"},
455	{"MWD", "Wind Direction & Speed"},
456	{"MWH", "Wave Height"},
457	{"MWS", "Wind & Sea State"},
458	{"MWV", "Wind Speed and Angle"},
459	{"NAK", "Negative Acknowledgement"},
460	{"NRM", "NAVTEX Receiver Mask"},
461	{"NRX", "NAVTEX Received Message"},
462	{"ODC", "Echosounder - ODEC DPT Format"},
463	{"OLN", "Omega Lane Numbers"},
464	{"OLW", "Omega Lane Width"},
465	{"OMP", "Omega Position"},
466	{"OSD", "Own Ship Data"},
467	{"OZN", "Omega Zone Number"},
468	{"POS", "Device Position and Ship Dimensions Report or Configuration Command"},
469	{"PRC", "Propulsion Remote Control Status"},
470	{"R00", "Waypoints in active route"},
471	{"RLM", "Return Link Message"},
472	{"RMA", "Recommended Minimum Specific Loran-C Data"},
473	{"RMB", "Recommended Minimum Navigation Information"},
474	{"RMC", "Recommended Minimum Specific GNSS Data"},
475	{"RNN", "Routes"},
476	{"ROO", "Waypoints in Active Route"},
477	{"ROR", "Rudder Order Status"},
478	{"ROT", "Rate Of Turn"},
479	{"RPM", "Revolutions"},
480	{"RSA", "Rudder Sensor Angle"},
481	{"RSD", "RADAR System Data"},
482	{"RST", "Equipment Reset Command"},
483	{"RTE", "Routes"},
484	{"SBK", "Loran-C Blink Status"},
485	{"SCD", "Loran-C ECDs"},
486	{"SCY", "Loran-C Cycle Lock Status"},
487	{"SDB", "Loran-C Signal Strength"},
488	{"SFI", "Scanning Frequency Information"},
489	{"SGD", "Position Accuracy Estimate"},
490	{"SGR", "Loran-C Chain Identifier"},
491	{"SID", "Set an Equipment's Identification, Command"},
492	{"SIU", "Loran-C Stations in Use"},
493	{"SLC", "Loran-C Status"},
494	{"SPO", "Select AIS Device's Processing and Output"},
495	{"SNC", "Navigation Calculation Basis"},
496	{"SNU", "Loran-C SNR Status"},
497	{"SPO", "Select AIS Device's Processing and Output"},
498	{"SPS", "Loran-C Predicted Signal Strength"},
499	{"SSD", "UAIS Ship Static Data"},
500	{"SSF", "Position Correction Offset"},
501	{"STC", "Time Constant"},
502	{"STN", "Multiple Data ID"},
503	{"STR", "Tracking Reference"},
504	{"SYS", "Hybrid System Configuration"},
505	{"TBR", "TAG Block Report"},
506	{"TBS", "TAG Block Listener Source-Identification Configuration Command"},
507	{"TDS", "Trawl Door Spread Distance"},
508	{"TEC", "TRANSIT Satellite Error Code & Doppler Count"},
509	{"TEP", "TRANSIT Satellite Predicted Elevation"},
510	{"TFI", "Trawl Filling Indicator"},
511	{"TFR", "Transmit Feedback Report"},
512	{"TGA", "TRANSIT Satellite Antenna & Geoidal Heights"},
513	{"THS", "True Heading and Status"},
514	{"TIF", "TRANSIT Satellite Initial Flag"},
515	{"TLB", "Target Label"},
516	{"TLL", "Target Latitude and Longitude"},
517	{"TPC", "Trawl Position Cartesian Coordinates"},
518	{"TPR", "Trawl Position Relative Vessel"},
519	{"TPT", "Trawl Position True"},
520	{"TRC", "Thruster Control Data"},
521	{"TRD", "Thruster Response Data"},
522	{"TRF", "TRANSIT Fix Data"},
523	{"TRP", "TRANSIT Satellite Predicted Direction of Rise"},
524	{"TRS", "TRANSIT Satellite Operating Status"},
525	{"TSA", "Transmit Slot Assignment"},
526	{"TSP", "Transmit Slot Prohibit"},
527	{"TSR", "Transmit Slot Prohibit - Status Report"},
528	{"TTD", "Tracked Target Data"},
529	{"TTM", "Tracked Target Message"},
530	{"TUT", "Transmission of Multi-Language Text"},
531	{"TXT", "Text Transmission"},
532	{"UID", "User Identification Code Transmission"},
533	{"VBW", "Dual Ground/Water Speed"},
534	{"VCD", "Current at Selected Depth"},
535	{"VDR", "Set and Drift"},
536	{"VER", "Version"},
537	{"VHW", "Water Speed and Heading"},
538	{"VLW", "Distance Traveled through Water"},
539	{"VPE", "Speed, Dead Reckoned Parallel to True Wind"},
540	{"VPW", "Speed, Measured Parallel to Wind"},
541	{"VSD", "UAIS Voyage Static Data"},
542	{"VSI", "VDL Signal Information"},
543	{"VTA", "Actual Track"},
544	{"VTG", "Track made good and Ground speed"},
545	{"VTI", "Intended Track"},
546	{"VWE", "Wind Track Efficiency"},
547	{"VWR", "Relative Wind Speed and Angle"},
548	{"VWT", "True Wind Speed and Angle"},
549	{"WAT", "Water Level Detection"},
550	{"WCV", "Waypoint Closure Velocity"},
551	{"WDC", "Distance to Waypoint - Great Circle"},
552	{"WDR", "Distance to Waypoint - Rhumb Line"},
553	{"WFM", "Route Following Mode"},
554	{"WNC", "Distance - Waypoint to Waypoint"},
555	{"WNR", "Waypoint-to-Waypoint Distance, Rhumb Line"},
556	{"WPL", "Waypoint Location"},
557	{"XDR", "Transducer Measurement"},
558	{"XTE", "Cross-Track Error, Measured"},
559	{"XTR", "Cross Track Error - Dead Reckoning"},
560	{"YWP", "Water Propagation Speed"},
561	{"YWS", "Water Profile"},
562	{"ZAA", "Time, Elapsed/Estimated"},
563	{"ZCD", "Timer"},
564	{"ZDA", "Time & Date - UTC, day, month, year and local time zone"},
565	{"ZDL", "Time and Distance to Variable Point"},
566	{"ZEV", "Event Timer"},
567	{"ZFO", "UTC & Time from origin Waypoint"},
568	{"ZLZ", "Time of Day"},
569	{"ZTG", "UTC & Time to Destination Waypoint"},
570	{"ZZU", "Time, UTC"},
571	{NULL((void)0), NULL((void)0)}};
572
573	/* Proprietary Manufacturer Mnemonic Coder lookup table */
574	/* https://web.nmea.org/External/WCPages/WCWebContent/webcontentpage.aspx?ContentID=364 */
575	static const string_string manufacturer_vals[] = {
576	{"3SN", "3-S Navigation"},
577	{"AAB", "ASM Selective Addressed Message (Reserved for Future Use)"},
578	{"AAR", "Asian American Resources"},
579	{"ABB", "ASM Broadcast Message (Reserved for Future Use)"},
580	{"ACE", "Auto-Comm Engineering Corporation"},
581	{"ACR", "ACR Electronics, Inc."},
582	{"ACS", "Arco Solar Inc."},
583	{"ACT", "Advanced Control Technology"},
584	{"ADI", "Aditel"},
585	{"ADM", "ASM VHF Data-Link Message (Reserved for Future Use)"},
586	{"ADN", "AD Navigation"},
587	{"ADO", "ASM VHF Data-Link Own-Vessel Report (Reserved for Future Use"},
588	{"AGB", "ASM Geographical Multicast Message (Reserved for Future Use"},
589	{"AGI", "Airguide Instrument Co."},
590	{"AGL", "Alert Group List (Reserved for Future Use)"},
591	{"AHA", "Autohelm of America"},
592	{"AIP", "AIPHONE Corporation"},
593	{"ALD", "Alden Electronics, Inc."},
594	{"AMB", "Ambarella, Inc. "},
595	{"AMC", "AllTek Marine Electronics Corp."},
596	{"AMI", "Advanced Marine Instrumentation, Ltd."},
597	{"AMK", "ASM Addressed and Broadcast Message Acknowledgement (Reserved for Future Use)"},
598	{"AMM", "Aquametro Oil & Marine"},
599	{"AMR", "AMR Systems"},
600	{"AMT", "Airmar Technology Corporation"},
601	{"AND", "Andrew Corporation"},
602	{"ANI", "Autonautic Instrumental Sl. (Spain)"},
603	{"ANS", "Antenna Specialists"},
604	{"ANX", "Analytyx Electronic Systems"},
605	{"ANZ", "Anschutz of America"},
606	{"AOB", "Aerobytes, Ltd."},
607	{"APC", "Apelco Electronics & Navigation"},
608	{"APN", "American Pioneer, Inc."},
609	{"APO", "Automated Procedure Options (Reserved for Future Use)"},
610	{"APW", "Pharos Marine Automatic Power"},
611	{"APX", "Amperex, Inc."},
612	{"AQC", "Aqua-Chem, Inc."},
613	{"AQD", "AquaDynamics, Inc."},
614	{"AQM", "Aqua Meter Instrument Corp."},
615	{"ARL", "Active Research, Ltd."},
616	{"ART", "Arlt Technologies, GmbH (Germany)"},
617	{"ARV", "Arvento Mobile Systems"},
618	{"ASH", "Ashtech"},
619	{"ASP", "American Solar Power"},
620	{"ATC", "Advanced C Technology, Ltd."},
621	{"ATE", "Aetna Engineering"},
622	{"ATM", "Atlantic Marketing Company"},
623	{"ATR", "Airtron"},
624	{"ATV", "Activation, Inc."},
625	{"AUC", "Automated Procedure Control (Reserved for Future Use)"},
626	{"AUP", "Automated Procedure Query (Reserved for Future Use)"},
627	{"AUS", "Automated Procedure Status (Reserved for Future Use)"},
628	{"AVN", "Advanced Navigation, Inc."},
629	{"AWA", "Awa New Zealand, Ltd."},
630	{"AXN", "Axiom Navigation, Inc."},
631	{"BBG", "BBG, Inc."},
632	{"BBL", "BBL Industries, Inc."},
633	{"BBR", "BBR and Associates"},
634	{"BDV", "Brisson Development, Inc."},
635	{"BEC", "Boat Electric Corporation"},
636	{"BFA", "Blueflow Americas"},
637	{"BGG", "Bodensee Gravitymeter Geo-Systems (BGS)"},
638	{"BGS", "Barringer Geoservice"},
639	{"BGT", "Brookes and Gatehouse, Inc."},
640	{"BHE", "BH Electronics"},
641	{"BHR", "Bahr Technologies, Inc."},
642	{"BLB", "Bay Laboratories"},
643	{"BMC", "BMC"},
644	{"BME", "Bartel Marine Electronics"},
645	{"BMS", "Becker Marine Systems"},
646	{"BMT", "Aventics GmbH (formerly Bosch Rexroth AG Marine Technique) (Germany)"},
647	{"BNI", "Neil Brown Instrument Systems"},
648	{"BNS", "Bowditch Navigation Systems"},
649	{"BRM", "Mel Barr Company"},
650	{"BRO", "Broadgate, Ltd."},
651	{"BRY", "Byrd Industries"},
652	{"BTH", "Benthos, Inc."},
653	{"BTK", "Baltek Corporation"},
654	{"BTS", "Boat Sentry, Inc."},
655	{"BVE", "BV Engineering"},
656	{"BXA", "Bendix-Avalex, Inc."},
657	{"CAI", "Cambridge Aero Instruments"},
658	{"CAT", "Catel"},
659	{"CBN", "Cybernet Marine Products"},
660	{"CCA", "Copal Corporation of America"},
661	{"CCC", "Coastel Communications Company"},
662	{"CCL", "Coastal Climate Company"},
663	{"CCM", "Coastal Communications"},
664	{"CDC", "Cordic Company"},
665	{"CDI", "Chetco Digital Instruments"},
666	{"CDL", "Teledyne CDL (CDLTD), Inc."},
667	{"CDS", "Central Dimming Set (Reserved for Future Use)"},
668	{"CEC", "Ceco Communications, Inc."},
669	{"CEI", "Cambridge Engineering, Inc."},
670	{"CFS", "Carlisle and Finch Company"},
671	{"CHI", "Charles Industries, Ltd."},
672	{"CIN", "Canadian Automotive Instruments"},
673	{"CKM", "Cinkel Marine Electronics"},
674	{"CLR", "Colorlight AB"},
675	{"CMA", "Soc Nouvelle D'equip Calvados"},
676	{"CMC", "Coe Manufacturing Company"},
677	{"CME", "Cushman Electronics, Inc."},
678	{"CML", "CML Microsystems PLC"},
679	{"CMN", "ComNav Marine, Ltd."},
680	{"CMP", "C-MAP, s.r.l. (Italy)"},
681	{"CMS", "Coastal Marine Sales Company"},
682	{"CMV", "Coursemaster USA, Inc."},
683	{"CNI", "Continental Instruments"},
684	{"CNS", "CNS Systems AB (Sweden)"},
685	{"CNV", "Coastal Navigator"},
686	{"CNX", "Cynex Manufacturing Company"},
687	{"CPL", "Computrol, Inc."},
688	{"CPN", "CompuNav"},
689	{"CPS", "Columbus Positioning, Ltd."},
690	{"CPT", "CPT, Inc."},
691	{"CRE", "Crystal Electronics, Ltd."},
692	{"CRO", "The Caro Group"},
693	{"CRY", "Crystek Crystals Corporation"},
694	{"CSI", "Communication Systems International"},
695	{"CSM", "COMSAT Maritime Services"},
696	{"CSR", "CSR Stockholm"},
697	{"CSS", "CNS, Inc."},
698	{"CST", "CAST, Inc."},
699	{"CSV", "Combined Services"},
700	{"CTA", "Current Alternatives"},
701	{"CTB", "Cetec Benmar"},
702	{"CTC", "Cell-Tech Communications"},
703	{"CTE", "Castle Electronics"},
704	{"CTL", "C-Tech, Ltd."},
705	{"CTS", "C-Tech Systems"},
706	{"CUL", "Cyclic Procedure List (Reserved for Future Use)"},
707	{"CUS", "Customware"},
708	{"CWD", "Cubic Western Data"},
709	{"CWF", "Hamilton Jet"},
710	{"CWV", "Celwave RF, Inc."},
711	{"CYL", "Cyclic Procedure List (Reserved for Future Use)"},
712	{"CYZ", "CYZ, Inc."},
713	{"DAN", "Danelec Marine A/S (Denmark)"},
714	{"DAS", "Dassault Sercel Navigation-Positioning"},
715	{"DBM", "Deep Blue Marine"},
716	{"DCC", "Dolphin Components Corporation"},
717	{"DEB", "Debeg GmbH (Germany)"},
718	{"DEC", "Decca Division, Litton Marine Systems BV"},
719	{"DFI", "Defender Industries, Inc."},
720	{"DGC", "Digicourse, Inc."},
721	{"DGY", "Digital Yacht, Ltd."},
722	{"DGP", "Digpilot A/S (Norway)"},
723	{"DME", "Delorme"},
724	{"DMI", "Datamarine International"},
725	{"DNS", "Dornier System"},
726	{"DNT", "Del Norte Technology, Inc."},
727	{"DOI", "Digital Oceans, Inc."},
728	{"DPC", "Data Panel Corporation"},
729	{"DPS", "Danaplus, Inc."},
730	{"DRL", "RL Drake Company"},
731	{"DSC", "Dynascan Corporation"},
732	{"DTN", "Dytechna, Ltd."},
733	{"DYN", "Dynamote Corporation"},
734	{"DYT", "Dytek Laboratories, Inc."},
735	{"EAN", "EuroAvionics Navigation Systems GmbH (Germany)"},
736	{"EBC", "Emergency Beacon Corporation"},
737	{"ECI", "Enhanced Selective Calling Information (Reserved for Future Use)"},
738	{"ECR", "Escort, Inc."},
739	{"ECT", "Echotec, Inc."},
740	{"EDO", "EDO Corporation, Electroacoustics Division"},
741	{"EEL", "Electronica Eutimio Sl. (Spain)"},
742	{"EEV", "EEV, Inc."},
743	{"EFC", "Efcom Communication Systems"},
744	{"EKC", "Eastman Kodak"},
745	{"ELA", "Wartsila Elac Nautik GmbH (Germany)"},
746	{"ELD", "Electronic Devices, Inc."},
747	{"ELM", "ELMAN, s.r.l. (Italy)"},
748	{"EMC", "Electric Motion Company"},
749	{"EMK", "E-Marine Company, Ltd."},
750	{"EMR", "EMRI A/S (Denmark)"},
751	{"EMS", "Electro Marine Systems, Inc."},
752	{"ENA", "Energy Analysts, Inc."},
753	{"ENC", "Encron, Inc."},
754	{"EPM", "EPSCO Marine"},
755	{"EPT", "Eastprint, Inc."},
756	{"ERC", "The Ericsson Corporation"},
757	{"ERD", "eRide, Inc."},
758	{"ESA", "European Space Agency"},
759	{"ESC", "Electronics Emporium Division of ESC Products"},
760	{"ESY", "E-Systems ECI Division"},
761	{"FDN", "FluiDyne"},
762	{"FEC", "Furuno Electric Company"},
763	{"FHE", "Fish Hawk Electronics"},
764	{"FJN", "Jon Fluke Company"},
765	{"FLA", "Flarm Technology GmbH (Germany)"},
766	{"FLO", "Floscan, Inc."},
767	{"FMM", "First Mate Marine Autopilots"},
768	{"FMS", "Fugro Seastar A/S (MarineStar)"},
769	{"FNT", "Franklin Net and Twine, Ltd."},
770	{"FRC", "The Fredericks Company"},
771	{"FSS", "Frequency Selection (Reserved for Future Use)"},
772	{"FST", "Fastrax OY (Switzerland)"},
773	{"FTG", "Thomas G Faria Corporation"},
774	{"FTT", "FT-TEC"},
775	{"FUG", "Fugro Intersite BV (Netherlands)"},
776	{"FUJ", "Fujitsu Ten Corporation of America"},
777	{"FUR", "Furuno USA, Inc."},
778	{"FWG", "Forschungsbereich Wasserchall and Geophysik WTD 71 (German Armed Forces Research Institute) (Germany)"},
779	{"GAM", "GRE America, Inc."},
780	{"GCA", "Gulf Cellular Associates"},
781	{"GDC", "GNSS Differential Correction (Reserved for Future Use)"},
782	{"GEC", "GEC Plessey Semiconductors"},
783	{"GES", "Geostar Corporation"},
784	{"GFC", "Graphic Controls Corporation"},
785	{"GFV", "GFV Marine, Ltd."},
786	{"GIL", "Gill Instruments Limited"},
787	{"GIS", "Galax Integrated Systems"},
788	{"GNV", "Geonav International"},
789	{"GPI", "Global Positioning Instrument Corporation"},
790	{"GPP", "GEO++ GmbH (Germany)"},
791	{"GPR", "Global Positioning System Joint Program Office (Rockwell Collins)"},
792	{"GRF", "Grafinta (Spain)"},
793	{"GRM", "Garmin Corporation"},
794	{"GSC", "Gold Star Company, Ltd."},
795	{"GTI", "Genesis Technology International, Ltd."},
796	{"GTO", "GRO Electronics"},
797	{"GVE", "Guest Corporation"},
798	{"GVT", "Great Valley Technology"},
799	{"HAI", "Hydragraphic Associates, Ltd."},
800	{"HAL", "HAL Communications Corporation"},
801	{"HAR", "Harris Corporation"},
802	{"HHS", "Hydel Hellas Skaltsaris, Ltd. (Shanghai)"},
803	{"HIG", "Hy-Gain"},
804	{"HIL", "Philips Navigation A/S (Denmark)"},
805	{"HIT", "Hi-Tec"},
806	{"HMS", "Hyde Marine Systems, Inc."},
807	{"HOM", "Hoppe Marine GmbH (Germany)"},
808	{"HPK", "Hewlett-Packard"},
809	{"HRC", "Harco Manufacturing Company"},
810	{"HRM", "[Unnamed]"},
811	{"HRT", "Hart Systems, Inc."},
812	{"HTI", "Heart Interface, Inc."},
813	{"HUL", "Hull Electronics Company"},
814	{"HWM", "Honeywell Marine Systems"},
815	{"IBM", "IBM Microelectronics"},
816	{"ICO", "Icom of America, Inc."},
817	{"ICG", "Initiative Computing USA, Inc. / Initiative Computing AG"},
818	{"IDS", "ICAN Marine (Canada)"},
819	{"IFD", "International Fishing Devices"},
820	{"IFI", "Instruments for Industry"},
821	{"ILS", "Ideal Teknoloji Bilisim Cozumleri A/S (Turkey)"},
822	{"IME", "Imperial Marine Equipment"},
823	{"IMI", "International Marine Instruments"},
824	{"IMM", "ITT Mackay Marine"},
825	{"IMP", "Impulse Manufacturing, Inc."},
826	{"IMR", "Ideal Technologies, Inc."},
827	{"IMT", "International Marketing and Trading, Inc."},
828	{"INM", "Inmar Electronics and Sales"},
829	{"INT", "Intech, Inc."},
830	{"IRT", "Intera Technologies, Ltd."},
831	{"IST", "Innerspace Technology, Inc."},
832	{"ITM", "Intermarine Electronics, Inc."},
833	{"ITR", "Itera, Ltd."},
834	{"IWW", "Inland Waterways (Germany)"},
835	{"IXB", "iXblue"},
836	{"JAN", "Jan Crystals"},
837	{"JAS", "Jasco Research, Ltd."},
838	{"JFR", "Ray Jefferson"},
839	{"JLD", "Jargoon Limited"},
840	{"JMT", "Japan Marine Telecommunications"},
841	{"JPI", "JP Instruments"},
842	{"JRC", "Japan Radio Company, Ltd."},
843	{"JRI", "J-R Industries, Inc."},
844	{"JTC", "J-Tech Associates, Inc."},
845	{"JTR", "Jotron Radiosearch, Ltd."},
846	{"KBE", "KB Electronics, Ltd."},
847	{"KBM", "Kennebec Marine Company"},
848	{"KEL", "Knudsen Engineering, Ltd."},
849	{"KHU", "Kelvin Hughes, Ltd."},
850	{"KLA", "Klein Associates, Inc."},
851	{"KME", "Kyushu Matsushita Electric"},
852	{"KML", "Kongsberg Mesotech, Ltd. (Canada)"},
853	{"KMO", "Kongsberg Maritime A/S (Norway)"},
854	{"KMR", "King Marine Radio Corporation"},
855	{"KMS", "Kongsberg Maritime Subsea (Norway)"},
856	{"KNC", "Kongsberg Norcontrols (Norway)"},
857	{"KNG", "King Radio Corporation"},
858	{"KOD", "Koden Electronics Company, Ltd."},
859	{"KRA", "EDV Krajka (Germany)"},
860	{"KRP", "Krupp International, Inc."},
861	{"KST", "Kongsberg Seatex A/S (Norway)"},
862	{"KVH", "KVH Company"},
863	{"KYI", "Kyocera International, Inc."},
864	{"L3A", "L3 Communications Recorders Division"},
865	{"LAT", "Latitude Corporation"},
866	{"L3I", "L-3 Interstate Electronics Corporation"},
867	{"LCI", "Lasercraft, Inc."},
868	{"LEC", "Lorain Electronics Corporation"},
869	{"LEI", "Leica Geosystems Pty, Ltd."},
870	{"LIT", "Litton Laser Systems"},
871	{"LMM", "Lamarche Manufacturing Company"},
872	{"LRD", "Lorad"},
873	{"LSE", "Littlemore Scientific (ELSEC) Engineering"},
874	{"LSP", "Laser Plot, Inc."},
875	{"LST", "Lite Systems Engineering"},
876	{"LTH", "Lars Thrane A/S (Denmark)"},
877	{"LTF", "Littlefuse, Inc."},
878	{"LTI", "Laser Technology, Inc."},
879	{"LWR", "Lowrance Electronics Corporation"},
880	{"MCA", "Canadian Marconi Company"},
881	{"MCI", "Matsushita Communications (Japan)"},
882	{"MCL", "Micrologic, Inc."},
883	{"MDL", "Medallion Instruments, Inc."},
884	{"MDS", "Marine Data Systems"},
885	{"MEC", "Marine Engine Center, Inc."},
886	{"MEG", "Maritec Engineering GmbH (Germany)"},
887	{"MES", "Marine Electronics Services, Inc."},
888	{"MEW", "Matsushita Electric Works (Japan)"},
889	{"MFR", "Modern Products, Ltd."},
890	{"MFW", "Frank W. Murphy Manufacturing"},
891	{"MGN", "Magellen Systems Corporation"},
892	{"MGS", "MG Electronic Sales Corporation"},
893	{"MIE", "Mieco, Inc."},
894	{"MIK", "Mikrolab GmbH (Germany)"},
895	{"MIR", "Miros A/S (Norway)"},
896	{"MIM", "Marconi International Marine"},
897	{"MLE", "Martha Lake Electronics"},
898	{"MLN", "Matlin Company"},
899	{"MLP", "Marlin Products"},
900	{"MLT", "Miller Technologies"},
901	{"MMB", "Marsh-McBirney, Inc."},
902	{"MME", "Marks Marine Engineering"},
903	{"MMI", "Microwave Monolithics"},
904	{"MMM", "Madman Marine"},
905	{"MMP", "Metal Marine Pilot, Inc."},
906	{"MMS", "Mars Marine Systems"},
907	{"MMT", "Micro Modular Technologies"},
908	{"MNI", "Micro-Now Instrument Company"},
909	{"MNT", "Marine Technology"},
910	{"MNX", "Marinex"},
911	{"MOT", "Motorola Communications & Electronics"},
912	{"MPI", "Megapulse, Inc."},
913	{"MPN", "Memphis Net and Twine Company, Inc."},
914	{"MQS", "Marquis Industries, Inc."},
915	{"MRC", "Marinecomp, Inc."},
916	{"MRE", "Morad Electronics Corporation"},
917	{"MRP", "Mooring Products of New England"},
918	{"MRR", "II Morrow, Inc."},
919	{"MRS", "Marine Radio Service"},
920	{"MSB", "Mitsubishi Electric Company, Ltd."},
921	{"MSE", "Master Electronics"},
922	{"MSF", "Microsoft Corporation"},
923	{"MSM", "Master Mariner, Inc."},
924	{"MST", "Mesotech Systems, Ltd."},
925	{"MTA", "Marine Technical Associates"},
926	{"MTD", "Maritel Data Services"},
927	{"MTG", "Marine Technical Assistance Group"},
928	{"MTI", "Mobile Telesystems, Inc."},
929	{"MTK", "Martech, Inc."},
930	{"MTL", "Marine Technologies, LLC"},
931	{"MTR", "The MITRE Corporation"},
932	{"MTS", "Mets, Inc."},
933	{"MUR", "Murata Erie North America"},
934	{"MVX", "Magnavox Advanced Products and Systems Company"},
935	{"MXS", "Maxsea International"},
936	{"MXX", "Maxxima Marine"},
937	{"MYS", "Marine Electronics Company (South Korea)"},
938	{"NAG", "Noris Automation GmbH (Germany)"},
939	{"NAT", "Nautech, Ltd."},
940	{"NAU", "Nauticast (a.k.a. Nauticall)"},
941	{"NAV", "Navtec, Inc."},
942	{"NCG", "Navcert, GmbH (Germany)"},
943	{"NCT", "Navcom Technology, Inc."},
944	{"NEC", "NEC Corporation"},
945	{"NEF", "New England Fishing Gear"},
946	{"NGC", "Northrop Grumman Maritime Systems"},
947	{"NGS", "Navigation Sciences, Inc."},
948	{"NIX", "L-3 Nautronix"},
949	{"NLS", "Navigation Light Status (Reserved for Future Use)"},
950	{"NMR", "Newmar"},
951	{"NMX", "Nanometrics"},
952	{"NOM", "Nav-Com, Inc."},
953	{"NOR", "Nortech Surveys (Canada)"},
954	{"NOS", "Northern Solutions A/S (Norway)"},
955	{"NOV", "NovAtel Communications, Ltd."},
956	{"NSI", "Noregon Systems, Inc."},
957	{"NSL", "Navitron Systems, Ltd."},
958	{"NSM", "Northstar Marine"},
959	{"NTI", "Northstar Technologies, Inc."},
960	{"NTK", "Novatech Designs, Ltd."},
961	{"NTS", "Navtech Systems"},
962	{"NUT", "Nautitech Pty, Ltd."},
963	{"NVC", "Navico"},
964	{"NVG", "NVS Technologies AG (Switzerland)"},
965	{"NVL", "Navelec Marine Systems Sl. (Spain)"},
966	{"NVO", "Navionics, s.p.a. (Italy)"},
967	{"NVS", "Navstar"},
968	{"NVT", "Novariant, Inc."},
969	{"NWC", "Naval Warfare Center"},
970	{"OAR", "On-Line Applications Research (OAR) Corporation"},
971	{"OBS", "Observator Instruments"},
972	{"OCC", "Occupation Control (Reserved for Future Use)"},
973	{"ODE", "Ocean Data Equipment Corporation"},
974	{"ODN", "Odin Electronics, Inc."},
975	{"OHB", "OHB Systems"},
976	{"OIN", "Ocean Instruments, Inc."},
977	{"OKI", "Oki Electric Industry Company, Ltd."},
978	{"OLY", "Navstard, Ltd. (Polytechnic Electronics)"},
979	{"OMN", "Omnetics Corporation"},
980	{"OMT", "Omnitech A/S (Norway)"},
981	{"ONI", "Omskiy Nauchno Issledovatelskiy Institut Priborostroeniya (Russia)"},
982	{"ORB", "Orbcomm"},
983	{"ORE", "Ocean Research"},
984	{"OSG", "Ocean Signal, Ltd."},
985	{"OSI", "OSI Maritime Systems (was Offshore Systems International)"},
986	{"OSL", "OSI Maritime Systems (was Offshore Systems, Ltd.)"},
987	{"OSS", "Ocean Solution Systems"},
988	{"OTK", "Ocean Technology"},
989	{"PCE", "Pace"},
990	{"PCM", "P-Sea Marine Systems"},
991	{"PDC", "Pan Delta Controls, Ltd."},
992	{"PDM", "Prodelco Marine Systems"},
993	{"PLA", "Plath C Division of Litton Industries"},
994	{"PLI", "Pilot Instruments"},
995	{"PMI", "Pernicka Marine Instruments"},
996	{"PMP", "Pacific Marine Products"},
997	{"PNI", "PNI Sensors, Inc."},
998	{"PNL", "Points North, Ltd."},
999	{"POM", "POMS Engineering"},
1000	{"PPL", "Pamarine Private, Ltd."},
1001	{"PRK", "Perko, Inc."},
1002	{"PSM", "Pearce-Simpson, Inc."},
1003	{"PST", "Pointstar A/S (Denmark)"},
1004	{"PTC", "Petro-Com"},
1005	{"PTG", "PTI/Guest"},
1006	{"PTH", "Pathcom, Inc."},
1007	{"PVS", "Planevision Systems"},
1008	{"QNQ", "QinetiQ (United Kingdom)"},
1009	{"QRC", "QinetiQ (United Kingdom)"},
1010	{"QWE", "Qwerty Elektronik AB (Sweden)"},
1011	{"QZM", "[Unnamed]"},
1012	{"Q2N", "QQN Navigation ABS"},
1013	{"RAC", "Racal Marine, Inc."},
1014	{"RAE", "RCA Astro-Electronics"},
1015	{"RAF", "Robins Air Force (USAF)"},
1016	{"RAK", "Rockson Automation Kiel"},
1017	{"RAY", "Raytheon Marine Company"},
1018	{"RCA", "RCA Service Company"},
1019	{"RCH", "Roach Engineering"},
1020	{"RCI", "Rochester Instruments, Inc."},
1021	{"RCQ", "QinetiQ (United Kingdom)"},
1022	{"RDC", "U.S. Coast Guard Research & Development Center"},
1023	{"RDI", "Radar Devices"},
1024	{"RDM", "Ray-Dar Manufacturing Company"},
1025	{"REC", "Ross Engineering Company"},
1026	{"RFP", "Rolfite Products, Inc."},
1027	{"RGC", "RCA Global Communications"},
1028	{"RGL", "Riegl Laser Measurement Systems"},
1029	{"RGY", "Regency Electronics, Inc."},
1030	{"RHO", "Rhotheta Elektronik GmbH (Germany)"},
1031	{"RHM", "RH Marine"},
1032	{"RLK", "Reelektronika NL (Netherlands)"},
1033	{"RME", "Racal Marine Electronics"},
1034	{"RMR", "RCA Missile and Radar"},
1035	{"RSL", "Ross Laboratories, Inc."},
1036	{"RSM", "Robertson-Shipmate USA"},
1037	{"RTH", "Parthus"},
1038	{"RTN", "Robertson Tritech Nyaskaien (Norway)"},
1039	{"RWC", "Rockwell Collins"},
1040	{"RWI", "Rockwell International"},
1041	{"SAA", "Satronika Sl. (Spain)"},
1042	{"SAB", "VDE Satellite Selective Addressed Binary and Safety Related Message (Reserved for Future Use)"},
1043	{"SAE", "STN Atlas Elektronik GmbH (Germany)"},
1044	{"SAF", "Safemine"},
1045	{"SAI", "SAIT, Inc."},
1046	{"SAJ", "SAJ Instrument AB (Finland)"},
1047	{"SAM", "SAM Electronics GmbH (Germany)"},
1048	{"SAL", "Consilium Marine AB (Sweden)"},
1049	{"SAP", "Systems Engineering & Assessment, Ltd."},
1050	{"SAT", "Satloc"},
1051	{"SBB", "VDE Satellite Broadcast Binary Message (Reserved for Future Use)"},
1052	{"SBG", "SBG Systems"},
1053	{"SBR", "Sea-Bird Electronics, Inc."},
1054	{"SCL", "Sokkia Company, Ltd."},
1055	{"SCM", "Scandinavian Microsystems A/S (Norway)"},
1056	{"SCO", "Simoco Telecommunications, Ltd."},
1057	{"SCR", "Signalcrafters, Inc."},
1058	{"SDM", "VDE Satellite VHF Data-Link Message (Reserved for Future Use)"},
1059	{"SDN", "Sapien Design"},
1060	{"SDO", "VDE Satellite VHF Data-Link Own-Vessel Report (Reserved for Future Use)"},
1061	{"SEA", "Sea, Inc."},
1062	{"SEC", "Sercel Electronics of Canada"},
1063	{"SEE", "Seetrac (a.k.a. Global Marine Tracking)"},
1064	{"SEL", "Selection Report (Reserved for Future Use)"},
1065	{"SEM", "Semtech, Ltd."},
1066	{"SEP", "Steel and Engine Products"},
1067	{"SER", "Sercel France"},
1068	{"SFN", "Seafarer Navigation International"},
1069	{"SGB", "VDE Satellite Geographical Addressed Binary and Safety Message (Reserved for Future Use)"},
1070	{"SGC", "SGC, Inc."},
1071	{"SGN", "Signav"},
1072	{"SHI", "Shine Micro, Inc."},
1073	{"SIG", "Signet, Inc."},
1074	{"SIM", "Simrad, Inc."},
1075	{"SKA", "Skantek Corporation"},
1076	{"SKP", "Skipper Electronics A/S (Norway)"},
1077	{"SLI", "Starlink, Inc."},
1078	{"SLM", "Steering Location Mode (Reserved for Future Use)"},
1079	{"SMC", "Solis Marine Consultants"},
1080	{"SMD", "ShipModul Customware (Netherlands)"},
1081	{"SME", "Shakespeare Marine Electronics"},
1082	{"SMF", "Seattle Marine and Fishing Supply Company"},
1083	{"SMI", "Sperry Marine, Inc."},
1084	{"SMK", "VDE Satellite Addressed and Broadcast Message Acknowledgement (Reserved for Future Use)"},
1085	{"SML", "Simerl Instruments"},
1086	{"SMT", "SRT Marine Technology, Ltd. (United Kingdom)"},
1087	{"SMV", "SafetyNet Message Vessel (Reserved for Future Use)"},
1088	{"SNP", "Science Applications International Corporation"},
1089	{"SNV", "STARNAV Corporation (Canada)"},
1090	{"SNY", "Sony Corporation - Mobile Electronics"},
1091	{"SOM", "Sound Marine Electronics"},
1092	{"SON", "Sonardyne International, Ltd. (United Kingdom)"},
1093	{"SOV", "Sell Overseas America"},
1094	{"SPL", "Spelmar"},
1095	{"SPT", "Sound Powered Telephone"},
1096	{"SRC", "Stellar Research Group"},
1097	{"SRD", "SRD Labs"},
1098	{"SRF", "SIRF Technology, Inc."},
1099	{"SRP", "System Function ID Resolution Protocol (Reserved for Future Use)"},
1100	{"SRS", "Scientific Radio Systems, Inc."},
1101	{"SRT", "Standard Radio and Telefon AB (Sweden)"},
1102	{"SRV", "(Reserved for Future Use)"},
1103	{"SSA", "(Reserved for Future Use)"},
1104	{"SSC", "Swedish Space Corporation"},
1105	{"SSD", "Saab AB, Security & Defense Solutions, Command and Control Systems Division (Sweden)"},
1106	{"SSE", "Seven Star Electronics"},
1107	{"SSI", "Sea Scout Industries"},
1108	{"SSN", "Septentrio"},
1109	{"STC", "Standard Communications"},
1110	{"STI", "Sea-Temp Instrument Corporation"},
1111	{"STK", "Seatechnik, Ltd. (a.k.a. Trelleborg Marine Systems) (United Kingdom)"},
1112	{"STL", "Streamline Technology, Ltd."},
1113	{"STM", "SI-TEX Marine Electronics"},
1114	{"STO", "Stowe Marine Electronics"},
1115	{"STT", "Saab TransponderTech AB (Sweden)"},
1116	{"SVY", "Savoy Electronics"},
1117	{"SWI", "Swoffer Marine Instruments"},
1118	{"SWT", "Swift Navigation, Inc."},
1119	{"SYE", "Samyung ENC Company, Ltd. (South Korea)"},
1120	{"SYN", "Synergy Systems, LLC"},
1121	{"TAB", "VDE Terrestrial Selective Addressed Binary and Safety Related Message (Reserved for Future Use)"},
1122	{"TBB", "Thompson Brothers Boat Manufacturing"},
1123	{"TBM", "VDE Terrestrial Broadcast Binary Message (Reserved for Future Use)"},
1124	{"TCN", "Trade Commission of Norway"},
1125	{"TDI", "Teledyne RD Instruments, Inc."},
1126	{"TDL", "Tideland Signal"},
1127	{"TDM", "VDE Terrestrial VHF Data-Link Message (Reserved for Future Use)"},
1128	{"TDO", "VDE Terrestrial VHF Data-Link Own-Vessel Report (Reserved for Future Use)"},
1129	{"TEL", "Plessey Tellumat (South Africa)"},
1130	{"TES", "Thales Electronic Systems GmbH (Germany)"},
1131	{"TGB", "VDE Terrestrial Geographical Addressed Binary and Safety Message (Reserved for Future Use)"},
1132	{"THR", "Thrane and Thrane A/A (Denmark)"},
1133	{"TKI", "Tokyo Keiki, Inc. (Japan)"},
1134	{"TLS", "Telesystems"},
1135	{"TMK", "VDE Terrestrial Addressed and Broadcast Message Acknowledgement (Reserved for Future Use)"},
1136	{"TMS", "Trelleborg Marine Systems"},
1137	{"TMT", "Tamtech, Ltd."},
1138	{"TNL", "Trimble Navigation, Inc."},
1139	{"TOP", "Topcon Positioning Systems, Inc."},
1140	{"TPL", "Totem Plus, Ltd."},
1141	{"TRC", "Tracor, Inc."},
1142	{"TRS", "Travroute Software"},
1143	{"TSG", "(Reserved for Future Use)"},
1144	{"TSI", "Techsonic Industries, Inc."},
1145	{"TSS", "Teledyne TSS, Ltd. (United Kingdom)"},
1146	{"TTK", "Talon Technology Corporation"},
1147	{"TTS", "Transtector Systems, Inc."},
1148	{"TYC", "Vincotech GmbH (formerly Tyco Electronics) (Germany)"},
1149	{"TWC", "Transworld Communications"},
1150	{"TWS", "Telit Location Solutions, a Division of Telit Wireless Solutions"},
1151	{"TXI", "Texas Instruments, Inc."},
1152	{"UBX", "u-blox AG (Switzerland)"},
1153	{"UCG", "United States Coast Guard"},
1154	{"UEL", "Ultra Electronics, Ltd."},
1155	{"UME", "UMEC"},
1156	{"UNF", "Uniforce Electronics Company"},
1157	{"UNI", "Uniden Corporation of America"},
1158	{"UNP", "Unipas, Inc."},
1159	{"URS", "UrsaNav, Inc."},
1160	{"VAN", "Vanner, Inc."},
1161	{"VAR", "Varian Eimac Associates"},
1162	{"VBC", "Docking Speed Log (Reserved for Future Use)"},
1163	{"VCM", "Videocom"},
1164	{"VDB", "Bertold Vandenbergh"},
1165	{"VEA", "Vard Electro A/S (Norway)"},
1166	{"VEC", "Vectron International"},
1167	{"VEX", "Vexilar"},
1168	{"VIS", "Vessel Information Systems"},
1169	{"VMR", "Vast Marketing Corporation"},
1170	{"VSP", "Vesper Marine"},
1171	{"VXS", "Vertex Standard"},
1172	{"WAL", "Walport USA"},
1173	{"WBE", "Wamblee, s.r.l. (Italy)"},
1174	{"WBG", "Westberg Manufacturing"},
1175	{"WBR", "Wesbar Corporation"},
1176	{"WEC", "Westinghouse Electric Corporation"},
1177	{"WEI", "Weidmueller Interface GmbH (Germany)"},
1178	{"WCI", "Wi-Sys Communications"},
1179	{"WDC", "Weatherdock Corporation"},
1180	{"WHA", "W-H Autopilots, Inc."},
1181	{"WMM", "Wait Manufacturing and Marine Sales Company"},
1182	{"WMR", "Wesmar Electronics"},
1183	{"WNG", "Winegard Company"},
1184	{"WOE", "Woosung Engineering Company, Ltd. (South Korea)"},
1185	{"WSE", "Wilson Electronics Corporation"},
1186	{"WST", "West Electronics, Ltd."},
1187	{"WTC", "Watercom"},
1188	{"XEL", "3XEL Electronics and Navigation Systems, s.r.l. (Italy)"},
1189	{"YAS", "Yaesu Electronics (Japan)"},
1190	{"YDK", "Yokogawa Denshikiki Company, Ltd. (Japan)"},
1191	{"YSH", "Standard Horizon Yaesu"},
1192	{"ZNS", "Zinnos, Inc. (South Korea)"},
1193	{NULL((void)0), NULL((void)0)}};
1194
1195	// List of GPS Quality Indicator (Source: NMEA Revealed by Eric S. Raymond, https://gpsd.gitlab.io/gpsd/NMEA.html, retrieved 2023-01-26)
1196	static const string_string known_gps_quality_indicators[] = {
1197	{"0", "Fix not available"},
1198	{"1", "GPS fix"},
1199	{"2", "Differential GPS fix"},
1200	{"3", "PPS fix"},
1201	{"4", "Real Time Kinematic"},
1202	{"5", "Float Real Time Kinematic"},
1203	{"6", "Estimated (dead reckoning)"},
1204	{"7", "Manual input mode"},
1205	{"8", "Simulation mode"},
1206	{NULL((void)0), NULL((void)0)}};
1207
1208	// List of status indicators (Source: NMEA Revealed by Eric S. Raymond, https://gpsd.gitlab.io/gpsd/NMEA.html, retrieved 2024-04-19)
1209	static const string_string known_status_indicators[] = {
1210	{"A", "Valid/Active"},
1211	{"V", "Invalid/Void"},
1212	{NULL((void)0), NULL((void)0)}};
1213
1214	// List of FAA Mode Indicator (Source: NMEA Revealed by Eric S. Raymond, https://gpsd.gitlab.io/gpsd/NMEA.html, retrieved 2024-04-19)
1215	static const string_string known_faa_mode_indicators[] = {
1216	{"A", "Autonomous mode"},
1217	{"C", "Quectel Querk, Caution"},
1218	{"D", "Differential Mode"},
1219	{"E", "Estimated (dead-reckoning) mode"},
1220	{"F", "RTK Float mode"},
1221	{"M", "Manual Input Mode"},
1222	{"N", "Data Not Valid"},
1223	{"P", "Precise"},
1224	{"R", "RTK Integer mode"},
1225	{"S", "Simulated Mode"},
1226	{"U", "Quectel Querk, Unsafe"},
1227	{NULL((void)0), NULL((void)0)}};
1228
1229	static uint8_t calculate_checksum(tvbuff_t *tvb, const int start, const int length)
1230	{
1231	uint8_t checksum = 0;
1232	for (int i = start; i < start + length; i++)
1233	{
1234	checksum ^= tvb_get_uint8(tvb, i);
1235	}
1236	return checksum;
1237	}
1238
1239	/* Find first occurrence of a field separator in tvbuff, starting at offset. Searches
1240	* to end of tvbuff.
1241	* Returns the offset of the found separator.
1242	* If separator is not found, return the offset of end of tvbuff.
1243	* If offset is out of bounds, return the offset of end of tvbuff.
1244	**/
1245	static int
1246	tvb_find_end_of_nmea0183_field(tvbuff_t *tvb, const int offset)
1247	{
1248	if (tvb_captured_length_remaining(tvb, offset) == 0)
1249	{
1250	return tvb_captured_length(tvb);
1251	}
1252
1253	int end_of_field_offset = tvb_find_uint8(tvb, offset, -1, ',');
1254	if (end_of_field_offset == -1)
1255	{
1256	return tvb_captured_length(tvb);
1257	}
1258	return end_of_field_offset;
1259	}
1260
1261	/* Add a zero length item which indicates an expected but missing field */
1262	static proto_item *
1263	proto_tree_add_missing_field(proto_tree tree, packet_info pinfo, int hf, tvbuff_t *tvb,
1264	const int offset)
1265	{
1266	proto_item ti = NULL((void)0);
1267	ti = proto_tree_add_item(tree, hf, tvb, offset, 0, ENC_ASCII0x00000000);
1268	proto_item_append_text(ti, "[missing]");
1269	expert_add_info(pinfo, ti, &ei_nmea0183_field_missing);
1270	return ti;
1271	}
1272
1273	/* Dissect a time field. The field is split into a tree with hour, minute and second elements.
1274	* Returns length including separator
1275	**/
1276	static int
1277	dissect_nmea0183_field_time(tvbuff_t tvb, packet_info pinfo, proto_tree *tree, int offset,
1278	int hf_time, int hf_hour, int hf_minute, int hf_second, int ett_time)
1279	{
1280	if (offset > (int)tvb_captured_length(tvb))
1281	{
1282	proto_tree_add_missing_field(tree, pinfo, hf_time, tvb, tvb_captured_length(tvb));
1283	return 0;
1284	}
1285
1286	proto_item ti = NULL((void)0);
1287	int end_of_field_offset = tvb_find_end_of_nmea0183_field(tvb, offset);
1288	ti = proto_tree_add_item(tree, hf_time, tvb, offset, end_of_field_offset - offset, ENC_ASCII0x00000000);
1289	if (end_of_field_offset - offset == 0)
1290	{
1291	proto_item_append_text(ti, ": [empty]");
1292	}
1293	else if (end_of_field_offset - offset >= 6)
1294	{
1295	const uint8_t hour = NULL((void)0);
1296	const uint8_t minute = NULL((void)0);
1297	const uint8_t second = NULL((void)0);
1298	proto_tree *time_subtree = proto_item_add_subtree(ti, ett_time);
1299
1300	proto_tree_add_item_ret_string(time_subtree, hf_hour,
1301	tvb, offset, 2, ENC_ASCII0x00000000,
1302	pinfo->pool, &hour);
1303
1304	proto_tree_add_item_ret_string(time_subtree, hf_minute,
1305	tvb, offset + 2, 2, ENC_ASCII0x00000000,
1306	pinfo->pool, &minute);
1307
1308	proto_tree_add_item_ret_string(time_subtree, hf_second,
1309	tvb, offset + 4, end_of_field_offset - offset - 4,
1310	ENC_ASCII0x00000000, pinfo->pool, &second);
1311
1312	proto_item_append_text(ti, ": %s:%s:%s", hour, minute, second);
1313	}
1314	else
1315	{
1316	expert_add_info(pinfo, ti, &ei_nmea0183_field_time_too_short);
1317	}
1318	return end_of_field_offset - offset + 1;
1319	}
1320
1321	/* Dissect a single field containing a dimensionless value. Returns length including separator */
1322	static int
1323	dissect_nmea0183_field(tvbuff_t tvb, packet_info pinfo, proto_tree tree, int offset, int hf, const char suffix, const string_string *str_str)
1324	{
1325	const char* field_str = NULL((void*)0);
1326
1327	if (offset > (int)tvb_captured_length(tvb))
1328	{
1329	proto_tree_add_missing_field(tree, pinfo, hf, tvb, tvb_captured_length(tvb));
1330	return 0;
1331	}
1332
1333	proto_item ti = NULL((void)0);
1334	int end_of_field_offset = tvb_find_end_of_nmea0183_field(tvb, offset);
1335	ti = proto_tree_add_item_ret_string(tree, hf, tvb, offset, end_of_field_offset - offset, ENC_ASCII0x00000000, pinfo->pool, (const uint8_t**)&field_str);
1336	if (end_of_field_offset - offset == 0)
1337	{
1338	proto_item_append_text(ti, "[empty]");
1339	}
1340	else if (suffix != NULL((void*)0))
1341	{
1342	proto_item_append_text(ti, " %s", suffix);
1343	}
1344	if ((str_str)&&(field_str)) {
1345	proto_item_append_text(ti, " - %s", str_to_str_wmem(pinfo->pool, field_str, str_str, " "));
1346	}
1347	return end_of_field_offset - offset + 1;
1348	}
1349
1350	/* Dissect a latitude/longitude direction field.
1351	* Returns length including separator
1352	**/
1353	static int
1354	dissect_nmea0183_field_latlong_direction(tvbuff_t tvb, packet_info pinfo, proto_tree *tree,
1355	int offset, int hf,
1356	wmem_allocator_t scope, const uint8_t *retval)
1357	{
1358	if (offset > (int)tvb_captured_length(tvb))
1359	{
1360	proto_tree_add_missing_field(tree, pinfo, hf, tvb, tvb_captured_length(tvb));
1361	return 0;
1362	}
1363
1364	int end_of_field_offset = tvb_find_end_of_nmea0183_field(tvb, offset);
1365	proto_item *ti = proto_tree_add_item_ret_string(tree, hf,
1366	tvb, offset, end_of_field_offset - offset, ENC_ASCII0x00000000,
1367	scope, retval);
1368	if (end_of_field_offset - offset == 0)
1369	{
1370	if (retval == NULL((void*)0))
1371	{
1372	proto_item_append_text(ti, "[empty]");
1373	}
1374	else
1375	{
1376	proto_item_append_text(ti, "[missing]");
1377	expert_add_info(pinfo, ti, &ei_nmea0183_field_missing);
1378	}
1379	}
1380	return end_of_field_offset - offset + 1;
1381	}
1382
1383	/* Dissect a latitude field + direction field. The fields are split into a tree with degree, minute and direction elements.
1384	* Returns length including separator
1385	**/
1386	static int
1387	dissect_nmea0183_field_latitude(tvbuff_t tvb, packet_info pinfo, proto_tree *tree, int offset,
1388	int hf_latitude, int hf_degree, int hf_minute, int hf_direction, int ett_latitude)
1389	{
1390	if (offset > (int)tvb_captured_length(tvb))
1391	{
1392	proto_tree_add_missing_field(tree, pinfo, hf_latitude, tvb, tvb_captured_length(tvb));
1393	return 0;
1394	}
1395
1396	proto_item ti = NULL((void)0);
1397	int end_of_field_offset = tvb_find_end_of_nmea0183_field(tvb, offset);
1398	ti = proto_tree_add_item(tree, hf_latitude, tvb, offset, end_of_field_offset - offset, ENC_ASCII0x00000000);
1399	if (end_of_field_offset - offset == 0)
1400	{
1401	proto_item_append_text(ti, ": [empty]");
1402
1403	end_of_field_offset += dissect_nmea0183_field_latlong_direction(tvb, pinfo, tree, end_of_field_offset + 1, hf_direction, NULL((void)0), NULL((void)0));
1404	}
1405	else if (end_of_field_offset - offset >= 4)
1406	{
1407	const uint8_t degree = NULL((void)0);
1408	const uint8_t minute = NULL((void)0);
1409	const uint8_t direction = NULL((void)0);
1410	proto_tree *latitude_subtree = proto_item_add_subtree(ti, ett_latitude);
1411
1412	proto_tree_add_item_ret_string(latitude_subtree, hf_degree,
1413	tvb, offset, 2,
1414	ENC_ASCII0x00000000, pinfo->pool, &degree);
1415
1416	proto_tree_add_item_ret_string(latitude_subtree, hf_minute,
1417	tvb, offset + 2, end_of_field_offset - offset - 2,
1418	ENC_ASCII0x00000000, pinfo->pool, &minute);
1419
1420	end_of_field_offset += dissect_nmea0183_field_latlong_direction(tvb, pinfo, latitude_subtree, end_of_field_offset + 1, hf_direction, pinfo->pool, &direction);
1421
1422	proto_item_append_text(ti, ": %s° %s' %s", degree, minute, direction);
1423	}
1424	else
1425	{
1426	expert_add_info(pinfo, ti, &ei_nmea0183_field_latitude_too_short);
1427
1428	end_of_field_offset += dissect_nmea0183_field_latlong_direction(tvb, pinfo, tree, end_of_field_offset + 1, hf_direction, NULL((void)0), NULL((void)0));
1429	}
1430	return end_of_field_offset - offset + 1;
1431	}
1432
1433	/* Dissect a longitude field + direction field. The fields are split into a tree with degree, minute and direction elements.
1434	* Returns length including separator
1435	**/
1436	static int
1437	dissect_nmea0183_field_longitude(tvbuff_t tvb, packet_info pinfo, proto_tree *tree, int offset,
1438	int hf_longitude, int hf_degree, int hf_minute, int hf_direction, int ett_latitude)
1439	{
1440	if (offset > (int)tvb_captured_length(tvb))
1441	{
1442	proto_tree_add_missing_field(tree, pinfo, hf_longitude, tvb, tvb_captured_length(tvb));
1443	return 0;
1444	}
1445
1446	proto_item ti = NULL((void)0);
1447	int end_of_field_offset = tvb_find_end_of_nmea0183_field(tvb, offset);
1448	ti = proto_tree_add_item(tree, hf_longitude, tvb, offset, end_of_field_offset - offset, ENC_ASCII0x00000000);
1449	if (end_of_field_offset - offset == 0)
1450	{
1451	proto_item_append_text(ti, ": [empty]");
1452
1453	end_of_field_offset += dissect_nmea0183_field_latlong_direction(tvb, pinfo, tree, end_of_field_offset + 1, hf_direction, NULL((void)0), NULL((void)0));
1454	}
1455	else if (end_of_field_offset - offset >= 5)
1456	{
1457	const uint8_t degree = NULL((void)0);
1458	const uint8_t minute = NULL((void)0);
1459	const uint8_t direction = NULL((void)0);
1460	proto_tree *longitude_subtree = proto_item_add_subtree(ti, ett_latitude);
1461
1462	proto_tree_add_item_ret_string(longitude_subtree, hf_degree,
1463	tvb, offset, 3,
1464	ENC_ASCII0x00000000, pinfo->pool, &degree);
1465
1466	proto_tree_add_item_ret_string(longitude_subtree, hf_minute,
1467	tvb, offset + 3, end_of_field_offset - offset - 3,
1468	ENC_ASCII0x00000000, pinfo->pool, &minute);
1469
1470	end_of_field_offset += dissect_nmea0183_field_latlong_direction(tvb, pinfo, longitude_subtree, end_of_field_offset + 1, hf_direction, pinfo->pool, &direction);
1471
1472	proto_item_append_text(ti, ": %s° %s' %s", degree, minute, direction);
1473	}
1474	else
1475	{
1476	expert_add_info(pinfo, ti, &ei_nmea0183_field_longitude_too_short);
1477
1478	end_of_field_offset += dissect_nmea0183_field_latlong_direction(tvb, pinfo, tree, end_of_field_offset + 1, hf_direction, NULL((void)0), NULL((void)0));
1479	}
1480	return end_of_field_offset - offset + 1;
1481	}
1482
1483	/* Dissect a required gps quality field. Returns length including separator */
1484	static int
1485	dissect_nmea0183_field_gps_quality(tvbuff_t tvb, packet_info pinfo, proto_tree *tree, int offset, int hf)
1486	{
1487	if (offset > (int)tvb_captured_length(tvb))
1488	{
1489	proto_tree_add_missing_field(tree, pinfo, hf, tvb, tvb_captured_length(tvb));
1490	return 0;
1491	}
1492
1493	proto_item ti = NULL((void)0);
1494	int end_of_field_offset = tvb_find_end_of_nmea0183_field(tvb, offset);
1495	const char quality = NULL((void)0);
1496	ti = proto_tree_add_item_ret_string(tree, hf,
1497	tvb, offset, end_of_field_offset - offset, ENC_ASCII0x00000000,
1498	pinfo->pool, (const uint8_t**)&quality);
1499	if (end_of_field_offset - offset == 0)
1500	{
1501	proto_item_append_text(ti, "[missing]");
1502	expert_add_info(pinfo, ti, &ei_nmea0183_field_missing);
1503	}
1504	else
1505	{
1506	proto_item_append_text(ti, " (%s)", str_to_str_wmem(pinfo->pool, quality, known_gps_quality_indicators, "Unknown quality"));
1507	}
1508	return end_of_field_offset - offset + 1;
1509	}
1510
1511	/* Dissect a single field containing a fixed text.
1512	The text of the field must match the `expected_text` or expert info `invalid_ei` is
1513	added to the field. An empty field is allowed. Returns length including separator */
1514	static int
1515	dissect_nmea0183_field_fixed_text(tvbuff_t tvb, packet_info pinfo, proto_tree *tree, int offset, int hf,
1516	const char expected_text, expert_field invalid_ei)
1517	{
1518	if (offset > (int)tvb_captured_length(tvb))
1519	{
1520	proto_tree_add_missing_field(tree, pinfo, hf, tvb, tvb_captured_length(tvb));
1521	return 0;
1522	}
1523
1524	proto_item ti = NULL((void)0);
1525	const char text = NULL((void)0);
1526	int end_of_field_offset = tvb_find_end_of_nmea0183_field(tvb, offset);
1527	ti = proto_tree_add_item_ret_string(tree, hf,
1528	tvb, offset, end_of_field_offset - offset, ENC_ASCII0x00000000,
1529	pinfo->pool, (const uint8_t**)&text);
1530	if (end_of_field_offset - offset == 0)
1531	{
1532	proto_item_append_text(ti, "[empty]");
1533	}
1534	else if (g_ascii_strcasecmp(text, expected_text) != 0)
1535	{
1536	expert_add_info(pinfo, ti, invalid_ei);
1537	}
1538	return end_of_field_offset - offset + 1;
1539	}
1540
1541	/* Dissect a optional FAA mode indicator field. Returns length including separator */
1542	static int
1543	dissect_nmea0183_field_faa_mode(tvbuff_t tvb, packet_info pinfo, proto_tree *tree, int offset, int hf)
1544	{
1545	if (offset > (int)tvb_captured_length(tvb))
1546	{
1547	proto_tree_add_missing_field(tree, pinfo, hf, tvb, tvb_captured_length(tvb));
1548	return 0;
1549	}
1550
1551	proto_item ti = NULL((void)0);
1552	int end_of_field_offset = tvb_find_end_of_nmea0183_field(tvb, offset);
1553	const char mode = NULL((void)0);
1554	ti = proto_tree_add_item_ret_string(tree, hf,
1555	tvb, offset, end_of_field_offset - offset, ENC_ASCII0x00000000,
1556	pinfo->pool, (const uint8_t**)&mode);
1557	if (end_of_field_offset - offset == 0)
1558	{
1559	proto_item_append_text(ti, "[empty]");
1560	}
1561	else
1562	{
1563	proto_item_append_text(ti, " (%s)", str_to_str_wmem(pinfo->pool, mode, known_faa_mode_indicators, "Unknown FAA mode"));
1564	}
1565	return end_of_field_offset - offset + 1;
1566	}
1567
1568	/* Dissect a optional A/V status field. Returns length including separator */
1569	static int
1570	dissect_nmea0183_field_status(tvbuff_t tvb, packet_info pinfo, proto_tree *tree, int offset, int hf)
1571	{
1572	if (offset > (int)tvb_captured_length(tvb))
1573	{
1574	proto_tree_add_missing_field(tree, pinfo, hf, tvb, tvb_captured_length(tvb));
1575	return 0;
1576	}
1577
1578	proto_item ti = NULL((void)0);
1579	int end_of_field_offset = tvb_find_end_of_nmea0183_field(tvb, offset);
1580	const char mode = NULL((void)0);
1581	ti = proto_tree_add_item_ret_string(tree, hf,
1582	tvb, offset, end_of_field_offset - offset, ENC_ASCII0x00000000,
1583	pinfo->pool, (const uint8_t**)&mode);
1584	if (end_of_field_offset - offset == 0)
1585	{
1586	proto_item_append_text(ti, "[empty]");
1587	}
1588	else
1589	{
1590	proto_item_append_text(ti, " (%s)", str_to_str_wmem(pinfo->pool, mode, known_status_indicators, "Unknown status"));
1591	}
1592	return end_of_field_offset - offset + 1;
1593	}
1594
1595	/* Dissect a ALR sentence. */
1596	/*
1597	* $--ALR,hhmmss.ss,xxx,A,A,c--c*hh<CR><LF>
1598	*/
1599	static const string_string alarm_condition_str[] = {
1600	{"A", "Threshold exceeded"},
1601	{"V", "Threshold not exceeded"},
1602	{ NULL((void)0), NULL((void)0)},
1603	};
1604
1605	static const string_string alarm_ack_state_str[] = {
1606	{"A", "Acknowledged"},
1607	{"V", "Unacknowledged"},
1608	{ NULL((void)0), NULL((void)0)},
1609	};
1610
1611	static int
1612	dissect_nmea0183_sentence_alr(tvbuff_t* tvb, packet_info* pinfo, proto_tree* tree)
1613	{
1614	int offset = 0;
1615
1616	proto_tree* subtree = proto_tree_add_subtree(tree, tvb, offset,
1617	tvb_captured_length(tvb), ett_nmea0183_sentence, NULL((void*)0), "ALR sentence - Set Alarm State");
1618
1619	/* hhmmss.ss */
1620	offset += dissect_nmea0183_field_time(tvb, pinfo, subtree, offset, hf_nmea0183_alr_time,
1621	hf_nmea0183_alr_time_hour, hf_nmea0183_alr_time_minute,
1622	hf_nmea0183_alr_time_second, ett_nmea0183_alr_time);
1623	/* xxx Unique alarm number (identifier) at alarm source */
1624	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_alr_alarm_id, NULL((void)0), NULL((void)0));
1625	/* Alarm condition (A = threshold exceeded, V = not exceeded) */
1626	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_alr_alarm_cond, NULL((void*)0), alarm_condition_str);
1627	/* Alarm’s acknowledge state, A= acknowledged, V= unacknowledged*/
1628	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_alr_alarm_ack_st, NULL((void*)0), alarm_ack_state_str);
1629	/* c--c Alarm’s description text*/
1630	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_alr_alarm_desc_txt, NULL((void)0), NULL((void)0));
1631
1632	return tvb_captured_length(tvb);
1633	}
1634
1635	/* Dissect a DPT sentence. */
1636	static int
1637	dissect_nmea0183_sentence_dpt(tvbuff_t tvb, packet_info pinfo, proto_tree *tree)
1638	{
1639	int offset = 0;
1640
1641	proto_tree *subtree = proto_tree_add_subtree(tree, tvb, offset,
1642	tvb_captured_length(tvb), ett_nmea0183_sentence, NULL((void*)0), "DPT sentence - Depth of Water");
1643
1644	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_dpt_depth, "meter", NULL((void*)0));
1645
1646	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_dpt_offset, "meter", NULL((void*)0));
1647
1648	dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_dpt_max_range, "meter", NULL((void*)0));
1649
1650	return tvb_captured_length(tvb);
1651	}
1652
1653	/* Dissect a GGA sentence. The time, latitude and longitude fields is split into individual parts. */
1654	static int
1655	dissect_nmea0183_sentence_gga(tvbuff_t tvb, packet_info pinfo, proto_tree *tree)
1656	{
1657	int offset = 0;
1658
1659	proto_tree *subtree = proto_tree_add_subtree(tree, tvb, offset,
1660	tvb_captured_length(tvb), ett_nmea0183_sentence,
1661	NULL((void*)0), "GGA sentence - Global Positioning System Fix");
1662
1663	offset += dissect_nmea0183_field_time(tvb, pinfo, subtree, offset, hf_nmea0183_gga_time,
1664	hf_nmea0183_gga_time_hour, hf_nmea0183_gga_time_minute,
1665	hf_nmea0183_gga_time_second, ett_nmea0183_gga_time);
1666
1667	offset += dissect_nmea0183_field_latitude(tvb, pinfo, subtree, offset, hf_nmea0183_gga_latitude,
1668	hf_nmea0183_gga_latitude_degree, hf_nmea0183_gga_latitude_minute,
1669	hf_nmea0183_gga_latitude_direction, ett_nmea0183_gga_latitude);
1670
1671	offset += dissect_nmea0183_field_longitude(tvb, pinfo, subtree, offset, hf_nmea0183_gga_longitude,
1672	hf_nmea0183_gga_longitude_degree, hf_nmea0183_gga_longitude_minute,
1673	hf_nmea0183_gga_longitude_direction, ett_nmea0183_gga_longitude);
1674
1675	offset += dissect_nmea0183_field_gps_quality(tvb, pinfo, subtree, offset, hf_nmea0183_gga_quality);
1676
1677	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gga_number_satellites, NULL((void)0), NULL((void)0));
1678
1679	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gga_horizontal_dilution, "meter", NULL((void*)0));
1680
1681	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gga_altitude, "meter", NULL((void*)0));
1682
1683	offset += dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_gga_altitude_unit,
1684	"M", &ei_nmea0183_gga_altitude_unit_incorrect);
1685
1686	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gga_geoidal_separation, "meter", NULL((void*)0));
1687
1688	offset += dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_gga_geoidal_separation_unit,
1689	"M", &ei_nmea0183_gga_geoidal_separation_unit_incorrect);
1690
1691	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gga_age_dgps, "second", NULL((void*)0));
1692
1693	dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gga_dgps_station, NULL((void)0), NULL((void)0));
1694
1695	return tvb_captured_length(tvb);
1696	}
1697
1698	/* Dissect a GLL sentence. The latitude, longitude and time fields is split into individual parts. */
1699	static int
1700	dissect_nmea0183_sentence_gll(tvbuff_t tvb, packet_info pinfo, proto_tree *tree)
1701	{
1702	int offset = 0;
1703
1704	proto_tree *subtree = proto_tree_add_subtree(tree, tvb, offset,
1705	tvb_captured_length(tvb), ett_nmea0183_sentence,
1706	NULL((void*)0), "GLL sentence - Geographic Position");
1707
1708	offset += dissect_nmea0183_field_latitude(tvb, pinfo, subtree, offset, hf_nmea0183_gll_latitude,
1709	hf_nmea0183_gll_latitude_degree, hf_nmea0183_gll_latitude_minute,
1710	hf_nmea0183_gll_latitude_direction, ett_nmea0183_gll_latitude);
1711
1712	offset += dissect_nmea0183_field_longitude(tvb, pinfo, subtree, offset, hf_nmea0183_gll_longitude,
1713	hf_nmea0183_gll_longitude_degree, hf_nmea0183_gll_longitude_minute,
1714	hf_nmea0183_gll_longitude_direction, ett_nmea0183_gll_longitude);
1715
1716	offset += dissect_nmea0183_field_time(tvb, pinfo, subtree, offset, hf_nmea0183_gll_time,
1717	hf_nmea0183_gll_time_hour, hf_nmea0183_gll_time_minute,
1718	hf_nmea0183_gll_time_second, ett_nmea0183_gll_time);
1719
1720	offset += dissect_nmea0183_field_status(tvb, pinfo, subtree, offset, hf_nmea0183_gll_status);
1721
1722	dissect_nmea0183_field_faa_mode(tvb, pinfo, subtree, offset, hf_nmea0183_gll_mode);
1723
1724	return tvb_captured_length(tvb);
1725	}
1726
1727	/* Dissect a GST sentence. The time field is split into individual parts. */
1728	static int
1729	dissect_nmea0183_sentence_gst(tvbuff_t tvb, packet_info pinfo, proto_tree *tree)
1730	{
1731	int offset = 0;
1732
1733	proto_tree *subtree = proto_tree_add_subtree(tree, tvb, offset,
1734	tvb_captured_length(tvb), ett_nmea0183_sentence,
1735	NULL((void*)0), "GST sentence - GPS Pseudorange Noise Statistics");
1736
1737	offset += dissect_nmea0183_field_time(tvb, pinfo, subtree, offset, hf_nmea0183_gst_time,
1738	hf_nmea0183_gst_time_hour, hf_nmea0183_gst_time_minute,
1739	hf_nmea0183_gst_time_second, ett_nmea0183_gst_time);
1740
1741	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gst_rms_total_sd, NULL((void)0), NULL((void)0));
1742
1743	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gst_ellipse_major_sd, "meter", NULL((void*)0));
1744	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gst_ellipse_minor_sd, "meter", NULL((void*)0));
1745	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gst_ellipse_orientation, "degree (true north)", NULL((void*)0));
1746
1747	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gst_latitude_sd, "meter", NULL((void*)0));
1748	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gst_longitude_sd, "meter", NULL((void*)0));
1749	dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_gst_altitude_sd, "meter", NULL((void*)0));
1750
1751	return tvb_captured_length(tvb);
1752	}
1753
1754	/* Dissect a HDT sentence. */
1755	static int
1756	dissect_nmea0183_sentence_hdt(tvbuff_t tvb, packet_info pinfo, proto_tree *tree)
1757	{
1758	int offset = 0;
1759
1760	proto_tree *subtree = proto_tree_add_subtree(tree, tvb, offset,
1761	tvb_captured_length(tvb), ett_nmea0183_sentence,
1762	NULL((void*)0), "HDT sentence - True Heading");
1763
1764	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_hdt_heading, "degree", NULL((void*)0));
1765
1766	dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_hdt_unit,
1767	"T", &ei_nmea0183_hdt_unit_incorrect);
1768
1769	return tvb_captured_length(tvb);
1770	}
1771
1772	/* Dissect a ROT sentence. */
1773	static int
1774	dissect_nmea0183_sentence_rot(tvbuff_t tvb, packet_info pinfo, proto_tree *tree)
1775	{
1776	int offset = 0;
1777
1778	proto_tree *subtree = proto_tree_add_subtree(tree, tvb, offset,
1779	tvb_captured_length(tvb), ett_nmea0183_sentence,
1780	NULL((void*)0), "ROT sentence - Rate Of Turn");
1781
1782	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_rot_rate_of_turn, "degree per minute", NULL((void*)0));
1783
1784	dissect_nmea0183_field_status(tvb, pinfo, subtree, offset, hf_nmea0183_rot_valid);
1785
1786	return tvb_captured_length(tvb);
1787	}
1788
1789	/* Dissect a TXT sentence */
1790	static int
1791	dissect_nmea0183_sentence_txt(tvbuff_t* tvb, packet_info* pinfo, proto_tree* tree)
1792	{
1793	int offset = 0;
1794
1795	proto_tree* subtree = proto_tree_add_subtree(tree, tvb, offset,
1796	tvb_captured_length(tvb), ett_nmea0183_sentence,
1797	NULL((void*)0), "TXT sentence - Text Transmission");
1798
1799	/* Total number of sentences, 01 to 99 */
1800	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_txt_num, NULL((void)0), NULL((void)0));
1801	/* Sentence number */
1802	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_txt_sent_num, NULL((void)0), NULL((void)0));
1803	/* Text identifier */
1804	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_txt_id, NULL((void)0), NULL((void)0));
1805	/* Text message */
1806	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_txt_msg, NULL((void)0), NULL((void)0));
	Value stored to 'offset' is never read
1807
1808	return tvb_captured_length(tvb);
1809	}
1810
1811
1812	/* Dissect a VHW sentence. */
1813	static int
1814	dissect_nmea0183_sentence_vhw(tvbuff_t tvb, packet_info pinfo, proto_tree *tree)
1815	{
1816	int offset = 0;
1817
1818	proto_tree *subtree = proto_tree_add_subtree(tree, tvb, offset,
1819	tvb_captured_length(tvb), ett_nmea0183_sentence,
1820	NULL((void*)0), "VHW sentence - Water speed and heading");
1821
1822	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vhw_true_heading, "degree", NULL((void*)0));
1823
1824	offset += dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_vhw_true_heading_unit,
1825	"T", &ei_nmea0183_vhw_true_heading_unit_incorrect);
1826
1827	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vhw_magnetic_heading, "degree", NULL((void*)0));
1828
1829	offset += dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_vhw_magnetic_heading_unit,
1830	"M", &ei_nmea0183_vhw_magnetic_heading_unit_incorrect);
1831
1832	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vhw_water_speed_knot, "knot", NULL((void*)0));
1833
1834	offset += dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_vhw_water_speed_knot_unit,
1835	"N", &ei_nmea0183_vhw_water_speed_knot_unit_incorrect);
1836
1837	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vhw_water_speed_kilometer, "kilometer per hour", NULL((void*)0));
1838
1839	dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_vhw_water_speed_kilometer_unit,
1840	"K", &ei_nmea0183_vhw_water_speed_kilometer_unit_incorrect);
1841
1842	return tvb_captured_length(tvb);
1843	}
1844
1845	/* Dissect a VBW sentence. */
1846	static int
1847	dissect_nmea0183_sentence_vbw(tvbuff_t tvb, packet_info pinfo, proto_tree *tree)
1848	{
1849	int offset = 0;
1850
1851	proto_tree *subtree = proto_tree_add_subtree(tree, tvb, offset,
1852	tvb_captured_length(tvb), ett_nmea0183_sentence,
1853	NULL((void*)0), "VBW sentence - Dual Ground/Water Speed");
1854
1855	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vbw_water_speed_longitudinal, "knot", NULL((void*)0));
1856	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vbw_water_speed_transverse, "knot", NULL((void*)0));
1857	offset += dissect_nmea0183_field_status(tvb, pinfo, subtree, offset, hf_nmea0183_vbw_water_speed_valid);
1858
1859	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vbw_ground_speed_longitudinal, "knot", NULL((void*)0));
1860	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vbw_ground_speed_transverse, "knot", NULL((void*)0));
1861	offset += dissect_nmea0183_field_status(tvb, pinfo, subtree, offset, hf_nmea0183_vbw_ground_speed_valid);
1862
1863	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vbw_stern_water_speed, "knot", NULL((void*)0));
1864	offset += dissect_nmea0183_field_status(tvb, pinfo, subtree, offset, hf_nmea0183_vbw_stern_water_speed_valid);
1865
1866	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vbw_stern_ground_speed, "knot", NULL((void*)0));
1867	dissect_nmea0183_field_status(tvb, pinfo, subtree, offset, hf_nmea0183_vbw_stern_ground_speed_valid);
1868
1869	return tvb_captured_length(tvb);
1870	}
1871
1872	/* Dissect a VLW sentence. */
1873	static int
1874	dissect_nmea0183_sentence_vlw(tvbuff_t tvb, packet_info pinfo, proto_tree *tree)
1875	{
1876	int offset = 0;
1877
1878	proto_tree *subtree = proto_tree_add_subtree(tree, tvb, offset,
1879	tvb_captured_length(tvb), ett_nmea0183_sentence,
1880	NULL((void*)0), "VLW sentence - Distance Traveled through Water");
1881
1882	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vlw_cumulative_water, "nautical miles", NULL((void*)0));
1883
1884	offset += dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_vlw_cumulative_water_unit,
1885	"N", &ei_nmea0183_vlw_cumulative_water_unit_incorrect);
1886
1887	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vlw_trip_water, "nautical miles", NULL((void*)0));
1888
1889	offset += dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_vlw_trip_water_unit,
1890	"N", &ei_nmea0183_vlw_trip_water_unit_incorrect);
1891
1892	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vlw_cumulative_ground, "nautical miles", NULL((void*)0));
1893
1894	offset += dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_vlw_cumulative_ground_unit,
1895	"N", &ei_nmea0183_vlw_cumulative_ground_unit_incorrect);
1896
1897	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vlw_trip_ground, "nautical miles", NULL((void*)0));
1898
1899	dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_vlw_trip_ground_unit,
1900	"N", &ei_nmea0183_vlw_trip_ground_unit_incorrect);
1901
1902	return tvb_captured_length(tvb);
1903	}
1904
1905	/* Dissect a VTG sentence. */
1906	static int
1907	dissect_nmea0183_sentence_vtg(tvbuff_t tvb, packet_info pinfo, proto_tree *tree)
1908	{
1909	int offset = 0;
1910
1911	proto_tree *subtree = proto_tree_add_subtree(tree, tvb, offset,
1912	tvb_captured_length(tvb), ett_nmea0183_sentence,
1913	NULL((void*)0), "VTG sentence - Track made good and Ground speed");
1914
1915	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vtg_true_course, "degree", NULL((void*)0));
1916
1917	offset += dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_vtg_true_course_unit,
1918	"T", &ei_nmea0183_vtg_true_course_unit_incorrect);
1919
1920	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vtg_magnetic_course, "degree", NULL((void*)0));
1921
1922	offset += dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_vtg_magnetic_course_unit,
1923	"M", &ei_nmea0183_vtg_magnetic_course_unit_incorrect);
1924
1925	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vtg_ground_speed_knot, "knot", NULL((void*)0));
1926
1927	offset += dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_vtg_ground_speed_knot_unit,
1928	"N", &ei_nmea0183_vtg_ground_speed_knot_unit_incorrect);
1929
1930	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_vtg_ground_speed_kilometer, "kilometer per hour", NULL((void*)0));
1931
1932	offset += dissect_nmea0183_field_fixed_text(tvb, pinfo, subtree, offset, hf_nmea0183_vtg_ground_speed_kilometer_unit,
1933	"K", &ei_nmea0183_vtg_ground_speed_kilometer_unit_incorrect);
1934
1935	dissect_nmea0183_field_faa_mode(tvb, pinfo, subtree, offset, hf_nmea0183_vtg_mode);
1936
1937	return tvb_captured_length(tvb);
1938	}
1939
1940	/* Dissect a ZDA (Time & Date) sentence. The time field is split into individual parts. */
1941	static int
1942	dissect_nmea0183_sentence_zda(tvbuff_t tvb, packet_info pinfo, proto_tree *tree)
1943	{
1944	int offset = 0;
1945	proto_tree *subtree = proto_tree_add_subtree(tree, tvb, offset,
1946	tvb_captured_length(tvb), ett_nmea0183_sentence,
1947	NULL((void*)0), "ZDA sentence - Time & Date");
1948
1949	offset += dissect_nmea0183_field_time(tvb, pinfo, subtree, offset, hf_nmea0183_zda_time,
1950	hf_nmea0183_zda_time_hour, hf_nmea0183_zda_time_minute,
1951	hf_nmea0183_zda_time_second, ett_nmea0183_zda_time);
1952
1953	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_zda_date_day, NULL((void)0), NULL((void)0));
1954
1955	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_zda_date_month, NULL((void)0), NULL((void)0));
1956
1957	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_zda_date_year, NULL((void)0), NULL((void)0));
1958
1959	offset += dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_zda_local_zone_hour, NULL((void)0), NULL((void)0));
1960
1961	dissect_nmea0183_field(tvb, pinfo, subtree, offset, hf_nmea0183_zda_local_zone_minute, NULL((void)0), NULL((void)0));
1962
1963	return tvb_captured_length(tvb);
1964	}
1965
1966	/* Dissect a sentence where the sentence id is unknown. Each field is shown as an generic field. */
1967	static int
1968	dissect_nmea0183_sentence_unknown(tvbuff_t tvb, packet_info pinfo _U___attribute__((unused)), proto_tree *tree)
1969	{
1970	int offset = 0;
1971
1972	proto_tree *subtree = proto_tree_add_subtree(tree, tvb, offset,
1973	tvb_captured_length(tvb), ett_nmea0183_sentence,
1974	NULL((void*)0), "Unknown sentence");
1975
1976	/* In an unknown sentence, the name of each field is unknown. Find all field by splitting at a comma. */
1977	while (tvb_captured_length_remaining(tvb, offset) > 0)
1978	{
1979	int end_of_field_offset = tvb_find_end_of_nmea0183_field(tvb, offset);
1980	proto_item *ti = proto_tree_add_item(subtree, hf_nmea0183_unknown_field,
1981	tvb, offset, end_of_field_offset - offset, ENC_ASCII0x00000000);
1982	if (end_of_field_offset - offset == 0)
1983	{
1984	proto_item_append_text(ti, "[empty]");
1985	}
1986	offset = end_of_field_offset + 1;
1987	}
1988	return tvb_captured_length(tvb);
1989	}
1990
1991
1992	/* <tag block 1>,<tagblock2>, … <tagblock n><tagblocks CS> /
1993	//static void
1994	//dissect_nmea0183_tag_block(tvbuff_t* tvb, packet_info* pinfo, proto_tree* tree)
1995	//{
1996	// int offset = 0, chk_sum_off, comma_off;
1997	//
1998	// chk_sum_off = tvb_find_uint8(tvb, offset, -1, '*');
1999	// if (chk_sum_off == -1) {
2000	// /* No checksum ??*/
2001	// return;
2002	// }
2003	// while (offset < chk_sum_off) {
2004	// comma_off = tvb_find_uint8(tvb, offset, -1, ',');
2005	// if (comma_off == -1) {
2006	//
2007	// }
2008	//
2009	// }
2010	//
2011	//}
2012	static int
2013	dissect_nmea0183_tag_blocks(tvbuff_t* tvb, packet_info* pinfo _U___attribute__((unused)), proto_tree* tree, int offset) {
2014
2015	int start_offset;
2016	int end_offset;
2017
2018	while (tvb_get_uint8(tvb, offset) == '\\') {
2019	start_offset = offset;
2020	offset++;
2021	end_offset = tvb_find_uint8(tvb, offset, -1, '\\');
2022	if (end_offset == -1) {
2023	// Add expert info
2024	return tvb_captured_length(tvb);
2025	}
2026	proto_tree_add_item(tree, hf_nmea0183_tag_block, tvb, start_offset, (end_offset - start_offset) + 1, ENC_ASCII0x00000000);
2027	//proto_tree* tree = proto_item_add_subtree(ti, ett_nmea0183_tag_block);
2028	offset = end_offset + 1;
2029	}
2030	return offset;
2031	}
2032
2033	static int
2034	dissect_nmea0183_msg(tvbuff_t* tvb, packet_info* pinfo, proto_tree* tree)
2035	{
2036	proto_item* ti;
2037	int offset = 0,start_offset;
2038	int start_checksum_offset = 0;
2039	const char* talker_id = NULL((void*)0);
2040	const char* sentence_id = NULL((void*)0);
2041	const char* checksum = NULL((void*)0);
2042	uint8_t start_delimiter;
2043
2044	/* Start delimiter */
2045	start_delimiter = tvb_get_uint8(tvb, offset);
2046	if ((start_delimiter != '$') && (start_delimiter != '!'))
2047	{
2048	expert_add_info(pinfo, tree, &ei_nmea0183_invalid_first_character);
2049	}
2050
2051	offset += 1;
2052	start_offset = offset;
2053	/* Talker id */
2054	ti = proto_tree_add_item_ret_string(tree, hf_nmea0183_talker_id,
2055	tvb, offset, 2, ENC_ASCII0x00000000,
2056	pinfo->pool, (const uint8_t**)&talker_id);
2057
2058	proto_item_append_text(ti, " (%s)", str_to_str_wmem(pinfo->pool, talker_id, known_talker_ids, "Unknown talker ID"));
2059
2060	col_append_fstr(pinfo->cinfo, COL_INFO, "Talker %s", str_to_str_wmem(pinfo->pool, talker_id, known_talker_ids, "Unknown talker ID"));
2061
2062	offset += 2;
2063
2064	/* Sentence id */
2065	ti = proto_tree_add_item_ret_string(tree, hf_nmea0183_sentence_id,
2066	tvb, offset, 3, ENC_ASCII0x00000000,
2067	pinfo->pool, (const uint8_t**)&sentence_id);
2068
2069	proto_item_append_text(ti, " (%s)", str_to_str_wmem(pinfo->pool, sentence_id, known_sentence_ids, "Unknown sentence ID"));
2070
2071	col_append_fstr(pinfo->cinfo, COL_INFO, ", Sentence %s", str_to_str_wmem(pinfo->pool, sentence_id, known_sentence_ids, "Unknown sentence ID"));
2072
2073	offset += 3;
2074
2075	/* Start of checksum */
2076	start_checksum_offset = tvb_find_uint8(tvb, offset, -1, '*');
2077	if (start_checksum_offset == -1)
2078	{
2079	expert_add_info(pinfo, tree, &ei_nmea0183_missing_checksum_character);
2080	return tvb_captured_length(tvb);
2081	}
2082
2083	/* Data */
2084	offset += 1;
2085	tvbuff_t *data_tvb = tvb_new_subset_length(tvb, offset, start_checksum_offset - offset);
2086	if (g_ascii_strcasecmp(sentence_id, "ALR") == 0)
2087	{
2088	offset += dissect_nmea0183_sentence_alr(data_tvb, pinfo, tree);
2089	}
2090	else if (g_ascii_strcasecmp(sentence_id, "DPT") == 0)
2091	{
2092	offset += dissect_nmea0183_sentence_dpt(data_tvb, pinfo, tree);
2093	}
2094	else if (g_ascii_strcasecmp(sentence_id, "GGA") == 0)
2095	{
2096	offset += dissect_nmea0183_sentence_gga(data_tvb, pinfo, tree);
2097	}
2098	else if (g_ascii_strcasecmp(sentence_id, "GLL") == 0)
2099	{
2100	offset += dissect_nmea0183_sentence_gll(data_tvb, pinfo, tree);
2101	}
2102	else if (g_ascii_strcasecmp(sentence_id, "GST") == 0)
2103	{
2104	offset += dissect_nmea0183_sentence_gst(data_tvb, pinfo, tree);
2105	}
2106	else if (g_ascii_strcasecmp(sentence_id, "HDT") == 0)
2107	{
2108	offset += dissect_nmea0183_sentence_hdt(data_tvb, pinfo, tree);
2109	}
2110	else if (g_ascii_strcasecmp(sentence_id, "ROT") == 0)
2111	{
2112	offset += dissect_nmea0183_sentence_rot(data_tvb, pinfo, tree);
2113	}
2114	else if (g_ascii_strcasecmp(sentence_id, "TXT") == 0)
2115	{
2116	offset += dissect_nmea0183_sentence_txt(data_tvb, pinfo, tree);
2117	}
2118	else if (g_ascii_strcasecmp(sentence_id, "VBW") == 0)
2119	{
2120	offset += dissect_nmea0183_sentence_vbw(data_tvb, pinfo, tree);
2121	}
2122	else if (g_ascii_strcasecmp(sentence_id, "VHW") == 0)
2123	{
2124	offset += dissect_nmea0183_sentence_vhw(data_tvb, pinfo, tree);
2125	}
2126	else if (g_ascii_strcasecmp(sentence_id, "VLW") == 0)
2127	{
2128	offset += dissect_nmea0183_sentence_vlw(data_tvb, pinfo, tree);
2129	}
2130	else if (g_ascii_strcasecmp(sentence_id, "VTG") == 0)
2131	{
2132	offset += dissect_nmea0183_sentence_vtg(data_tvb, pinfo, tree);
2133	}
2134	else if (g_ascii_strcasecmp(sentence_id, "ZDA") == 0)
2135	{
2136	offset += dissect_nmea0183_sentence_zda(data_tvb, pinfo, tree);
2137	}
2138	else
2139	{
2140	offset += dissect_nmea0183_sentence_unknown(data_tvb, pinfo, tree);
2141	}
2142
2143	/* Checksum */
2144	offset += 1;
2145	ti = proto_tree_add_item_ret_string(tree, hf_nmea0183_checksum,
2146	tvb, offset, 2, ENC_ASCII0x00000000,
2147	pinfo->pool, (const uint8_t**)&checksum);
2148
2149	uint8_t received_checksum = (uint8_t)strtol(checksum, NULL((void*)0), 16);
2150	uint8_t calculated_checksum;
2151
2152	//calculated_checksum = calculate_checksum(tvb, 1, offset - 2);
2153	calculated_checksum = calculate_checksum(tvb, start_offset, (offset - start_offset-1));
2154
2155	if (received_checksum == calculated_checksum)
2156	{
2157	proto_item_append_text(ti, " [correct]");
2158	}
2159	else
2160	{
2161	proto_item_append_text(ti, " [INCORRECT]");
2162	expert_add_info(pinfo, ti, &ei_nmea0183_checksum_incorrect);
2163	}
2164
2165	// Calculated checksum highlights 2 bytes, which is the ascii hex value of a 1 byte checksum
2166	proto_item *checksum_tree = proto_item_add_subtree(ti, ett_nmea0183_checksum);
2167	ti = proto_tree_add_uint(checksum_tree, hf_nmea0183_checksum_calculated,
2168	tvb, offset, 2, calculated_checksum);
2169
2170	proto_item_set_generated(ti);
2171
2172	offset += 2;
2173
2174	/* End of line */
2175	if (tvb_captured_length_remaining(tvb, offset) < 2 \|\|
2176	tvb_get_uint8(tvb, offset) != '\r' \|\|
2177	tvb_get_uint8(tvb, offset + 1) != '\n')
2178	{
2179	expert_add_info(pinfo, tree, &ei_nmea0183_invalid_end_of_line);
2180	}
2181	offset += 2;
2182
2183	/* Check sentence length */
2184	if (offset > 82)
2185	{
2186	expert_add_info(pinfo, tree, &ei_nmea0183_sentence_too_long);
2187	}
2188
2189	return tvb_captured_length(tvb);
2190	}
2191
2192	static const value_string nmea0183_bin_mtype_vals[] = {
2193	{ 1, "Data"},
2194	{ 2, "Query"},
2195	{ 3, "Ack"},
2196	{ 0, NULL((void*)0) },
2197	};
2198
2199	static int
2200	dissect_nmea0183_bin(tvbuff_t* tvb, packet_info* pinfo, proto_tree* tree, void* data _U___attribute__((unused)))
2201	{
2202	proto_item* ti;
2203	proto_tree* nmea0183_tree, *fd_tree;
2204	uint32_t mtype, seqnum, file_descriptor_len, type_len;
2205
2206	int offset = 0;
2207
2208	col_set_str(pinfo->cinfo, COL_PROTOCOL, "NMEA 0183 Binary");
2209	/* Clear the info column */
2210	col_clear(pinfo->cinfo, COL_INFO);
2211
2212	ti = proto_tree_add_item(tree, proto_nmea0183_bin, tvb, 0, -1, ENC_NA0x00000000);
2213	nmea0183_tree = proto_item_add_subtree(ti, ett_nmea0183);
2214
2215	proto_tree_add_item(nmea0183_tree, hf_nmea0183_sentence_prefix, tvb, offset, 6, ENC_ASCII0x00000000);
2216	offset += 6;
2217	proto_tree_add_item(nmea0183_tree, hf_nmea0183_bin_version, tvb, offset, 2, ENC_BIG_ENDIAN0x00000000);
2218	offset+=2;
2219	proto_tree_add_item(nmea0183_tree, hf_nmea0183_bin_srcid, tvb, offset, 6, ENC_ASCII0x00000000);
2220	offset += 6;
2221	proto_tree_add_item(nmea0183_tree, hf_nmea0183_bin_dstid, tvb, offset, 6, ENC_ASCII0x00000000);
2222	offset += 6;
2223	proto_tree_add_item_ret_uint(nmea0183_tree, hf_nmea0183_bin_mtype, tvb, offset, 2, ENC_BIG_ENDIAN0x00000000, &mtype);
2224	offset += 2;
2225	proto_tree_add_item(nmea0183_tree, hf_nmea0183_bin_blockid, tvb, offset, 4, ENC_BIG_ENDIAN0x00000000);
2226	offset += 4;
2227	proto_tree_add_item_ret_uint(nmea0183_tree, hf_nmea0183_bin_seqnum, tvb, offset, 4, ENC_BIG_ENDIAN0x00000000, &seqnum);
2228	offset += 4;
2229	proto_tree_add_item(nmea0183_tree, hf_nmea0183_bin_max_seqnum, tvb, offset, 4, ENC_BIG_ENDIAN0x00000000);
2230	offset += 4;
2231	if (offset < (int)tvb_reported_length(tvb)) {
2232	if ((mtype == 1) && (seqnum == 1)) {
2233	/* binary file descriptor*/
2234	ti = proto_tree_add_item(nmea0183_tree, hf_nmea0183_bin_file_descriptor, tvb, offset, -1, ENC_ASCII0x00000000);
2235	fd_tree = proto_item_add_subtree(ti, ett_nmea0183_fd);
2236	proto_tree_add_item_ret_uint(fd_tree, hf_nmea0183_bin_file_descriptor_len, tvb, offset, 4, ENC_BIG_ENDIAN0x00000000, &file_descriptor_len);
2237	proto_item_set_len(ti, file_descriptor_len);
2238	offset += 4;
2239	proto_tree_add_item(fd_tree, hf_nmea0183_bin_file_length, tvb, offset, 4, ENC_BIG_ENDIAN0x00000000);
2240	offset += 4;
2241	proto_tree_add_item(fd_tree, hf_nmea0183_bin_stat_of_acquisition, tvb, offset, 2, ENC_BIG_ENDIAN0x00000000);
2242	offset += 2;
2243	proto_tree_add_item(fd_tree, hf_nmea0183_bin_device, tvb, offset, 1, ENC_BIG_ENDIAN0x00000000);
2244	offset++;
2245	proto_tree_add_item(fd_tree, hf_nmea0183_bin_channel, tvb, offset, 1, ENC_BIG_ENDIAN0x00000000);
2246	offset++;
2247	proto_tree_add_item_ret_uint(fd_tree, hf_nmea0183_bin_type_len, tvb, offset, 1, ENC_BIG_ENDIAN0x00000000, &type_len);
2248	offset++;
2249	proto_tree_add_item(fd_tree, hf_nmea0183_bin_data_type, tvb, offset, type_len, ENC_ASCII0x00000000);
2250	offset += type_len;
2251	proto_tree_add_item(fd_tree, hf_nmea0183_bin_status_and_info, tvb, offset, file_descriptor_len - type_len - 13, ENC_ASCII0x00000000);
2252	offset += file_descriptor_len - type_len - 13;
2253	}
2254	proto_tree_add_item(nmea0183_tree, hf_nmea0183_bin_data, tvb, offset, -1, ENC_NA0x00000000);
2255	}
2256
2257
2258	return tvb_reported_length(tvb);
2259	}
2260
2261	static int
2262	dissect_nmea0183(tvbuff_t* tvb, packet_info* pinfo, proto_tree* tree, void* data)
2263	{
2264	proto_item* ti;
2265	proto_tree* nmea0183_tree = NULL((void*)0);
2266	int offset = 0;
2267	int end_offset;
2268	bool_Bool first_msg = true1;
2269
2270	col_set_str(pinfo->cinfo, COL_PROTOCOL, "NMEA 0183");
2271	/* Clear the info column */
2272	col_clear(pinfo->cinfo, COL_INFO);
2273
2274	/* Find end of nmea message */
2275	end_offset = tvb_find_uint16(tvb, 0, -1, NMEA0183_CRLF0x0d0a);
2276	if (end_offset == -1) {
2277	end_offset = tvb_reported_length(tvb);
2278	}
2279	/* Add CRLF */
2280	end_offset += 2;
2281
2282
2283	/* UdPbC\<tag block 1>,<tagblock2>, … <tagblock n><tagblocks CS>\<NMEA message>/
2284	if (tvb_strneql(tvb, 0, UDPBC"UdPbC", strlen(UDPBC"UdPbC")) == 0) {
2285	if (first_msg == true1) {
2286	ti = proto_tree_add_item(tree, proto_nmea0183, tvb, 0, end_offset, ENC_NA0x00000000);
2287	nmea0183_tree = proto_item_add_subtree(ti, ett_nmea0183);
2288	}
2289	proto_tree_add_item(nmea0183_tree, hf_nmea0183_sentence_prefix, tvb, offset, 6, ENC_ASCII0x00000000);
2290	offset += 6;
2291	while (offset < (int)tvb_reported_length(tvb)) {
2292	if (first_msg != true1) {
2293	end_offset = tvb_find_uint16(tvb, offset, -1, NMEA0183_CRLF0x0d0a);
2294	if (end_offset == -1) {
2295	end_offset = tvb_reported_length(tvb);
2296	}
2297	/* Add CRLF */
2298	end_offset += 2;
2299
2300	ti = proto_tree_add_item(tree, proto_nmea0183, tvb, offset, end_offset, ENC_NA0x00000000);
2301	nmea0183_tree = proto_item_add_subtree(ti, ett_nmea0183);
2302	}
2303	offset = dissect_nmea0183_tag_blocks(tvb, pinfo, nmea0183_tree, offset);
2304	tvbuff_t* msg_tvb = tvb_new_subset_length(tvb, offset, end_offset - offset);
2305	dissect_nmea0183_msg(msg_tvb, pinfo, nmea0183_tree);
2306	offset += (end_offset - offset);
2307	first_msg = false0;
2308	}
2309	return offset;
2310	} else if (tvb_strneql(tvb, 0, RRUDP"RrUdP", strlen(RRUDP"RrUdP")) == 0) {
2311	/* Binary nmea0183 */
2312	offset = dissect_nmea0183_bin(tvb, pinfo, tree, data);
2313	return offset;
2314	} else if (tvb_strneql(tvb, 0, RAUDP"RaUdp", strlen(RAUDP"RaUdp")) == 0) {
2315	/* Binary nmea0183 */
2316	offset = dissect_nmea0183_bin(tvb, pinfo, tree, data);
2317	return offset;
2318	} else if (tvb_strneql(tvb, 0, RPUDP"RpUdP", strlen(RPUDP"RpUdP")) == 0) {
2319	/* Binary nmea0183 */
2320	offset = dissect_nmea0183_bin(tvb, pinfo, tree, data);
2321	return offset;
2322	}
2323
2324	ti = proto_tree_add_item(tree, proto_nmea0183, tvb, 0, end_offset, ENC_NA0x00000000);
2325	nmea0183_tree = proto_item_add_subtree(ti, ett_nmea0183);
2326
2327	tvbuff_t *msg_tvb = tvb_new_subset_length(tvb, offset, end_offset - offset);
2328	offset = dissect_nmea0183_msg(msg_tvb, pinfo, nmea0183_tree);
2329
2330	return offset;
2331	}
2332
2333	/* Try to detect NMEA 0183 heuristically */
2334	static bool_Bool dissect_nmea0183_heur(tvbuff_t tvb, packet_info pinfo, proto_tree tree, void data)
2335	{
2336	char *sent_type;
2337	const char talker, t_val, p_val, m_val, *manuf;
2338
2339	/* Have to have at least 11 bytes:
2340	* 1-byte sentence type character ('!' or '$')
2341	* 2-byte TALKER lookup value
2342	* 2-byte TALKER (for Query sentences) or 3-byte FORMATTER
2343	* variable number of bytes for delimiters and data fields (minimum would be a single ',' byte)
2344	* '' delimeter byte, 2-bytes for checksum, and 2-bytes for EOM "\r\n" /
2345	if(tvb_reported_length(tvb) < 11 \|\| tvb_captured_length(tvb) < 5){
2346	return false0;
2347	}
2348	/* See if we have a UDP brodcast message */
2349	if (tvb_strneql(tvb, 0, UDPBC"UdPbC", strlen(UDPBC"UdPbC")) == 0) {
2350	return (dissect_nmea0183(tvb, pinfo, tree, data) != 0);
2351	}
2352	if (tvb_strneql(tvb, 0, RRUDP"RrUdP", strlen(RRUDP"RrUdP")) == 0) {
2353	return (dissect_nmea0183_bin(tvb, pinfo, tree, data) != 0);
2354	}
2355	if (tvb_strneql(tvb, 0, RAUDP"RaUdp", strlen(RAUDP"RaUdp")) == 0) {
2356	return (dissect_nmea0183_bin(tvb, pinfo, tree, data) != 0);
2357	}
2358	if (tvb_strneql(tvb, 0, RPUDP"RpUdP", strlen(RPUDP"RpUdP")) == 0) {
2359	return (dissect_nmea0183_bin(tvb, pinfo, tree, data) != 0);
2360	}
2361	/* Grab the first byte and check the first character */
2362	sent_type = (char*)tvb_get_string_enc(pinfo->pool, tvb, 0, 1, ENC_ASCII0x00000000);
2363
2364	/* Sentence type character ('!' or '$') */
2365	if( (sent_type[0] != '!') && (sent_type[0] != '$') ){
2366	return false0;
2367	}
2368
2369	/* We either have a 'P' and corresponding manufacturer 3-byte value OR
2370	* we have a non-proprietary 2-byte TALKER field */
2371	//TODO: Implement encapsulation and proprietary message parsing
2372
2373	/* Do a lookup for the 2-byte TALKER field */
2374	t_val = (char*)tvb_get_string_enc(pinfo->pool, tvb, 1, 2, ENC_ASCII0x00000000);
2375	talker = try_str_to_str(t_val, known_talker_ids);
2376
2377	/* Do a lookup for the 3-byte manufacturer if the 2nd byte in the PDU is 'P' */
2378	p_val = (char*)tvb_get_string_enc(pinfo->pool, tvb, 1, 1, ENC_ASCII0x00000000);
2379	m_val = (char*)tvb_get_string_enc(pinfo->pool, tvb, 2, 3, ENC_ASCII0x00000000);
2380	manuf = try_str_to_str(m_val, manufacturer_vals);
2381
2382	/* If one of the two conditions are true then try to dissect NMEA 0183 */
2383	if( ((p_val[0] == 'P') && (manuf != NULL((void*)0))) \|\|
2384	(talker != NULL((void*)0)) ){
2385	/* Looks like NMEA 0183 so let's give it a try */
2386	return (dissect_nmea0183(tvb, pinfo, tree, data) != 0);
2387	}
2388	/* If neither conditions are met then we return false */
2389	else{
2390	return false0;
2391	}
2392	}
2393
2394	void proto_register_nmea0183(void)
2395	{
2396	expert_module_t *expert_nmea0183;
2397
2398	static hf_register_info hf[] = {
2399	{&hf_nmea0183_talker_id,
2400	{"Talker ID", "nmea0183.talker",
2401	FT_STRING, BASE_NONE,
2402	NULL((void*)0), 0x0,
2403	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2404	{&hf_nmea0183_sentence_id,
2405	{"Sentence ID", "nmea0183.sentence",
2406	FT_STRING, BASE_NONE,
2407	NULL((void*)0), 0x0,
2408	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2409	{&hf_nmea0183_unknown_field,
2410	{"Field", "nmea0183.unknown_field",
2411	FT_STRING, BASE_NONE,
2412	NULL((void*)0), 0x0,
2413	"NMEA 0183 Unknown field", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2414	{&hf_nmea0183_checksum,
2415	{"Checksum", "nmea0183.checksum",
2416	FT_STRING, BASE_NONE,
2417	NULL((void*)0), 0x0,
2418	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2419	{&hf_nmea0183_checksum_calculated,
2420	{"Calculated checksum", "nmea0183.checksum_calculated",
2421	FT_UINT8, BASE_HEX,
2422	NULL((void*)0), 0x0,
2423	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2424	{&hf_nmea0183_dpt_depth,
2425	{"Water depth", "nmea0183.dpt_depth",
2426	FT_STRING, BASE_NONE,
2427	NULL((void*)0), 0x0,
2428	"NMEA 0183 DPT Water depth relative to transducer", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2429	{&hf_nmea0183_dpt_offset,
2430	{"Offset", "nmea0183.dpt_offset",
2431	FT_STRING, BASE_NONE,
2432	NULL((void*)0), 0x0,
2433	"NMEA 0183 DPT Offset from transducer, positive means distance from transducer to water line, negative means distance from transducer to keel", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2434	{&hf_nmea0183_dpt_max_range,
2435	{"Maximum range", "nmea0183.dpt_max_range",
2436	FT_STRING, BASE_NONE,
2437	NULL((void*)0), 0x0,
2438	"NMEA 0183 DPT Maximum range scale in use (NMEA 3.0 and above)", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2439	{&hf_nmea0183_alr_time,
2440	{"UTC Time of alarm condition change", "nmea0183.alr_time",
2441	FT_NONE, BASE_NONE,
2442	NULL((void*)0), 0x0,
2443	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2444	{&hf_nmea0183_alr_time_hour,
2445	{"Hour", "nmea0183.alr_time_hour",
2446	FT_STRING, BASE_NONE,
2447	NULL((void*)0), 0x0,
2448	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2449	{&hf_nmea0183_alr_time_minute,
2450	{"Minute", "nmea0183.alr_time_minute",
2451	FT_STRING, BASE_NONE,
2452	NULL((void*)0), 0x0,
2453	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2454	{&hf_nmea0183_alr_time_second,
2455	{"Second", "nmea0183.alr_time_second",
2456	FT_STRING, BASE_NONE,
2457	NULL((void*)0), 0x0,
2458	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2459	{&hf_nmea0183_alr_alarm_id,
2460	{"Alarm id", "nmea0183.alr_id",
2461	FT_STRING, BASE_NONE,
2462	NULL((void*)0), 0x0,
2463	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2464	{&hf_nmea0183_alr_alarm_cond,
2465	{"Alarm condition", "nmea0183.alr_alarm_cond",
2466	FT_STRING, BASE_NONE,
2467	NULL((void*)0), 0x0,
2468	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2469	{&hf_nmea0183_alr_alarm_ack_st,
2470	{"Alarm’s acknowledge state", "nmea0183.alr_alarm_ack_st",
2471	FT_STRING, BASE_NONE,
2472	NULL((void*)0), 0x0,
2473	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2474	{&hf_nmea0183_alr_alarm_desc_txt,
2475	{"Alarm’s description text", "nmea0183.alr_alarm_desc_txt",
2476	FT_STRING, BASE_NONE,
2477	NULL((void*)0), 0x0,
2478	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2479	{&hf_nmea0183_gga_time,
2480	{"UTC Time of position", "nmea0183.gga_time",
2481	FT_NONE, BASE_NONE,
2482	NULL((void*)0), 0x0,
2483	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2484	{&hf_nmea0183_gga_time_hour,
2485	{"Hour", "nmea0183.gga_time_hour",
2486	FT_STRING, BASE_NONE,
2487	NULL((void*)0), 0x0,
2488	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2489	{&hf_nmea0183_gga_time_minute,
2490	{"Minute", "nmea0183.gga_time_minute",
2491	FT_STRING, BASE_NONE,
2492	NULL((void*)0), 0x0,
2493	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2494	{&hf_nmea0183_gga_time_second,
2495	{"Second", "nmea0183.gga_time_second",
2496	FT_STRING, BASE_NONE,
2497	NULL((void*)0), 0x0,
2498	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2499	{&hf_nmea0183_gga_latitude,
2500	{"Latitude", "nmea0183.gga_latitude",
2501	FT_NONE, BASE_NONE,
2502	NULL((void*)0), 0x0,
2503	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2504	{&hf_nmea0183_gga_latitude_degree,
2505	{"Degree", "nmea0183.gga_latitude_degree",
2506	FT_STRING, BASE_NONE,
2507	NULL((void*)0), 0x0,
2508	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2509	{&hf_nmea0183_gga_latitude_minute,
2510	{"Minute", "nmea0183.gga_latitude_minute",
2511	FT_STRING, BASE_NONE,
2512	NULL((void*)0), 0x0,
2513	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2514	{&hf_nmea0183_gga_latitude_direction,
2515	{"Direction", "nmea0183.gga_latitude_direction",
2516	FT_STRING, BASE_NONE,
2517	NULL((void*)0), 0x0,
2518	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2519	{&hf_nmea0183_gga_longitude,
2520	{"Longitude", "nmea0183.gga_longitude",
2521	FT_NONE, BASE_NONE,
2522	NULL((void*)0), 0x0,
2523	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2524	{&hf_nmea0183_gga_longitude_degree,
2525	{"Degree", "nmea0183.gga_longitude_degree",
2526	FT_STRING, BASE_NONE,
2527	NULL((void*)0), 0x0,
2528	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2529	{&hf_nmea0183_gga_longitude_minute,
2530	{"Minute", "nmea0183.gga_longitude_minute",
2531	FT_STRING, BASE_NONE,
2532	NULL((void*)0), 0x0,
2533	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2534	{&hf_nmea0183_gga_longitude_direction,
2535	{"Direction", "nmea0183.gga_longitude_direction",
2536	FT_STRING, BASE_NONE,
2537	NULL((void*)0), 0x0,
2538	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2539	{&hf_nmea0183_gga_quality,
2540	{"Quality indicator", "nmea0183.gga_quality",
2541	FT_STRING, BASE_NONE,
2542	NULL((void*)0), 0x0,
2543	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2544	{&hf_nmea0183_gga_number_satellites,
2545	{"Number of satellites", "nmea0183.gga_number_satellites",
2546	FT_STRING, BASE_NONE,
2547	NULL((void*)0), 0x0,
2548	"NMEA 0183 GGA Number of satellites in use", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2549	{&hf_nmea0183_gga_horizontal_dilution,
2550	{"Horizontal Dilution", "nmea0183.gga_horizontal_dilution",
2551	FT_STRING, BASE_NONE,
2552	NULL((void*)0), 0x0,
2553	"NMEA 0183 GGA Horizontal Dilution of precision", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2554	{&hf_nmea0183_gga_altitude,
2555	{"Altitude", "nmea0183.gga_altitude",
2556	FT_STRING, BASE_NONE,
2557	NULL((void*)0), 0x0,
2558	"NMEA 0183 GGA Antenna Altitude above mean-sea-level", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2559	{&hf_nmea0183_gga_altitude_unit,
2560	{"Altitude unit", "nmea0183.gga_altitude_unit",
2561	FT_STRING, BASE_NONE,
2562	NULL((void*)0), 0x0,
2563	"NMEA 0183 GGA Units of antenna altitude", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2564	{&hf_nmea0183_gga_geoidal_separation,
2565	{"Geoidal separation", "nmea0183.gga_geoidal_separation",
2566	FT_STRING, BASE_NONE,
2567	NULL((void*)0), 0x0,
2568	"NMEA 0183 GGA Geoidal separation, the difference between the WGS-84 earth ellipsoid and mean-sea-level", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2569	{&hf_nmea0183_gga_geoidal_separation_unit,
2570	{"Geoidal separation unit", "nmea0183.gga_geoidal_separation_unit",
2571	FT_STRING, BASE_NONE,
2572	NULL((void*)0), 0x0,
2573	"NMEA 0183 GGA Units of geoidal separation, meters", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2574	{&hf_nmea0183_gga_age_dgps,
2575	{"Age of differential GPS", "nmea0183.gga_age_dgps",
2576	FT_STRING, BASE_NONE,
2577	NULL((void*)0), 0x0,
2578	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2579	{&hf_nmea0183_gga_dgps_station,
2580	{"Differential GPS station id", "nmea0183.gga_dgps_station",
2581	FT_STRING, BASE_NONE,
2582	NULL((void*)0), 0x0,
2583	"NMEA 0183 GGA Differential reference station ID", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2584	{&hf_nmea0183_gll_latitude,
2585	{"Latitude", "nmea0183.gll_latitude",
2586	FT_NONE, BASE_NONE,
2587	NULL((void*)0), 0x0,
2588	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2589	{&hf_nmea0183_gll_latitude_degree,
2590	{"Degree", "nmea0183.gll_latitude_degree",
2591	FT_STRING, BASE_NONE,
2592	NULL((void*)0), 0x0,
2593	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2594	{&hf_nmea0183_gll_latitude_minute,
2595	{"Minute", "nmea0183.gll_latitude_minute",
2596	FT_STRING, BASE_NONE,
2597	NULL((void*)0), 0x0,
2598	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2599	{&hf_nmea0183_gll_latitude_direction,
2600	{"Direction", "nmea0183.gll_latitude_direction",
2601	FT_STRING, BASE_NONE,
2602	NULL((void*)0), 0x0,
2603	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2604	{&hf_nmea0183_gll_longitude,
2605	{"Longitude", "nmea0183.gll_longitude",
2606	FT_NONE, BASE_NONE,
2607	NULL((void*)0), 0x0,
2608	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2609	{&hf_nmea0183_gll_longitude_degree,
2610	{"Degree", "nmea0183.gll_longitude_degree",
2611	FT_STRING, BASE_NONE,
2612	NULL((void*)0), 0x0,
2613	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2614	{&hf_nmea0183_gll_longitude_minute,
2615	{"Minute", "nmea0183.gll_longitude_minute",
2616	FT_STRING, BASE_NONE,
2617	NULL((void*)0), 0x0,
2618	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2619	{&hf_nmea0183_gll_longitude_direction,
2620	{"Direction", "nmea0183.gll_longitude_direction",
2621	FT_STRING, BASE_NONE,
2622	NULL((void*)0), 0x0,
2623	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2624	{&hf_nmea0183_gll_time,
2625	{"UTC Time of position", "nmea0183.gll_time",
2626	FT_NONE, BASE_NONE,
2627	NULL((void*)0), 0x0,
2628	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2629	{&hf_nmea0183_gll_time_hour,
2630	{"Hour", "nmea0183.gll_time_hour",
2631	FT_STRING, BASE_NONE,
2632	NULL((void*)0), 0x0,
2633	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2634	{&hf_nmea0183_gll_time_minute,
2635	{"Minute", "nmea0183.gll_time_minute",
2636	FT_STRING, BASE_NONE,
2637	NULL((void*)0), 0x0,
2638	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2639	{&hf_nmea0183_gll_time_second,
2640	{"Second", "nmea0183.gll_time_second",
2641	FT_STRING, BASE_NONE,
2642	NULL((void*)0), 0x0,
2643	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2644	{&hf_nmea0183_gll_status,
2645	{"Status", "nmea0183.gll_status",
2646	FT_STRING, BASE_NONE,
2647	NULL((void*)0), 0x0,
2648	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2649	{&hf_nmea0183_gll_mode,
2650	{"FAA mode", "nmea0183.gll_mode",
2651	FT_STRING, BASE_NONE,
2652	NULL((void*)0), 0x0,
2653	"NMEA 0183 GLL FAA mode indicator (NMEA 2.3 and later)", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2654	{&hf_nmea0183_gst_time,
2655	{"UTC Time of position", "nmea0183.gst_time",
2656	FT_NONE, BASE_NONE,
2657	NULL((void*)0), 0x0,
2658	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2659	{&hf_nmea0183_gst_time_hour,
2660	{"Hour", "nmea0183.gst_time_hour",
2661	FT_STRING, BASE_NONE,
2662	NULL((void*)0), 0x0,
2663	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2664	{&hf_nmea0183_gst_time_minute,
2665	{"Minute", "nmea0183.gst_time_minute",
2666	FT_STRING, BASE_NONE,
2667	NULL((void*)0), 0x0,
2668	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2669	{&hf_nmea0183_gst_time_second,
2670	{"Second", "nmea0183.gst_time_second",
2671	FT_STRING, BASE_NONE,
2672	NULL((void*)0), 0x0,
2673	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2674	{&hf_nmea0183_gst_rms_total_sd,
2675	{"Total RMS standard deviation", "nmea0183.gst_sd_rms_total",
2676	FT_STRING, BASE_NONE,
2677	NULL((void*)0), 0x0,
2678	"NMEA 0183 GST Total RMS standard deviation of ranges inputs to the navigation solution", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2679	{&hf_nmea0183_gst_ellipse_major_sd,
2680	{"Standard deviation of semi-major axis of error", "nmea0183.gst_ellipse_major_sd",
2681	FT_STRING, BASE_NONE,
2682	NULL((void*)0), 0x0,
2683	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2684	{&hf_nmea0183_gst_ellipse_minor_sd,
2685	{"Standard deviation of semi-minor axis of error ellipse", "nmea0183.gst_ellipse_minor_sd",
2686	FT_STRING, BASE_NONE,
2687	NULL((void*)0), 0x0,
2688	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2689	{&hf_nmea0183_gst_ellipse_orientation,
2690	{"Orientation of semi-major axis of error ellipse", "nmea0183.gst_ellipse_orientation",
2691	FT_STRING, BASE_NONE,
2692	NULL((void*)0), 0x0,
2693	"NMEA 0183 GST Orientation of semi-major axis of error ellipse (true north degrees)", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2694	{&hf_nmea0183_gst_latitude_sd,
2695	{"Standard deviation of latitude error", "nmea0183.gst_sd_latitude",
2696	FT_STRING, BASE_NONE,
2697	NULL((void*)0), 0x0,
2698	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2699	{&hf_nmea0183_gst_longitude_sd,
2700	{"Standard deviation of longitude error", "nmea0183.gst_sd_longitude",
2701	FT_STRING, BASE_NONE,
2702	NULL((void*)0), 0x0,
2703	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2704	{&hf_nmea0183_gst_altitude_sd,
2705	{"Standard deviation of altitude error", "nmea0183.gst_sd_altitude",
2706	FT_STRING, BASE_NONE,
2707	NULL((void*)0), 0x0,
2708	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2709	{&hf_nmea0183_hdt_heading,
2710	{"True heading", "nmea0183.hdt_heading",
2711	FT_STRING, BASE_NONE,
2712	NULL((void*)0), 0x0,
2713	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2714	{&hf_nmea0183_hdt_unit,
2715	{"Heading unit", "nmea0183.hdt_unit",
2716	FT_STRING, BASE_NONE,
2717	NULL((void*)0), 0x0,
2718	"NMEA 0183 HDT Heading unit, must be T", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2719	{&hf_nmea0183_rot_rate_of_turn,
2720	{"Rate of turn", "nmea0183.rot_rate_of_turn",
2721	FT_STRING, BASE_NONE,
2722	NULL((void*)0), 0x0,
2723	"NMEA 0183 ROT Rate Of Turn, degrees per minute, negative value means bow turns to port", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2724	{ &hf_nmea0183_txt_num,
2725	{"Total number of sentences", "nmea0183.txt.num",
2726	FT_STRING, BASE_NONE,
2727	NULL((void*)0), 0x0,
2728	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)} },
2729	{ &hf_nmea0183_txt_sent_num,
2730	{"Sentence number", "nmea0183.txt.sent_num",
2731	FT_STRING, BASE_NONE,
2732	NULL((void*)0), 0x0,
2733	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)} },
2734	{ &hf_nmea0183_txt_id,
2735	{"Text identifier", "nmea0183.txt.id",
2736	FT_STRING, BASE_NONE,
2737	NULL((void*)0), 0x0,
2738	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)} },
2739	{ &hf_nmea0183_txt_msg,
2740	{"Text message", "nmea0183.txt.msg",
2741	FT_STRING, BASE_NONE,
2742	NULL((void*)0), 0x0,
2743	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)} },
2744	{&hf_nmea0183_rot_valid,
2745	{"Validity", "nmea0183.rot_valid",
2746	FT_STRING, BASE_NONE,
2747	NULL((void*)0), 0x0,
2748	"NMEA 0183 ROT Status, A means data is valid", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2749	{&hf_nmea0183_vbw_water_speed_longitudinal,
2750	{"Longitudinal water speed", "nmea0183.vbw_water_speed_longitudinal",
2751	FT_STRING, BASE_NONE,
2752	NULL((void*)0), 0x0,
2753	"NMEA 0183 VBW Longitudinal water speed, negative value means astern, knots", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2754	{&hf_nmea0183_vbw_water_speed_transverse,
2755	{"Transverse water speed", "nmea0183.vbw_water_speed_transverse",
2756	FT_STRING, BASE_NONE,
2757	NULL((void*)0), 0x0,
2758	"NMEA 0183 VBW Transverse water speed, negative value means port, knots", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2759	{&hf_nmea0183_vbw_water_speed_valid,
2760	{"Water speed validity", "nmea0183.vbw_water_speed_valid",
2761	FT_STRING, BASE_NONE,
2762	NULL((void*)0), 0x0,
2763	"NMEA 0183 VBW Water speed status, A means data is valid", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2764	{&hf_nmea0183_vbw_ground_speed_longitudinal,
2765	{"Longitudinal ground speed", "nmea0183.vbw_ground_speed_longitudinal",
2766	FT_STRING, BASE_NONE,
2767	NULL((void*)0), 0x0,
2768	"NMEA 0183 VBW Longitudinal ground speed, negative value means astern, knots", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2769	{&hf_nmea0183_vbw_ground_speed_transverse,
2770	{"Transverse ground speed", "nmea0183.vbw_ground_speed_transverse",
2771	FT_STRING, BASE_NONE,
2772	NULL((void*)0), 0x0,
2773	"NMEA 0183 VBW Transverse ground speed, negative value means port, knots", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2774	{&hf_nmea0183_vbw_ground_speed_valid,
2775	{"Ground speed validity", "nmea0183.vbw_ground_speed_valid",
2776	FT_STRING, BASE_NONE,
2777	NULL((void*)0), 0x0,
2778	"NMEA 0183 VBW Ground speed status, A means data is valid", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2779	{&hf_nmea0183_vbw_stern_water_speed,
2780	{"Stern water speed", "nmea0183.vbw_stern_water_speed",
2781	FT_STRING, BASE_NONE,
2782	NULL((void*)0), 0x0,
2783	"NMEA 0183 VBW Stern traverse water ground speed, negative value means port, knots", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2784	{&hf_nmea0183_vbw_stern_water_speed_valid,
2785	{"Stern water speed validity", "nmea0183.vbw_stern_water_speed_valid",
2786	FT_STRING, BASE_NONE,
2787	NULL((void*)0), 0x0,
2788	"NMEA 0183 VBW Stern traverse water speed status, A means data is valid", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2789	{&hf_nmea0183_vbw_stern_ground_speed,
2790	{"Stern ground speed", "nmea0183.vbw_stern_ground_speed",
2791	FT_STRING, BASE_NONE,
2792	NULL((void*)0), 0x0,
2793	"NMEA 0183 VBW Stern traverse ground ground speed, negative value means port, knots", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2794	{&hf_nmea0183_vbw_stern_ground_speed_valid,
2795	{"Stern ground speed validity", "nmea0183.vbw_stern_ground_speed_valid",
2796	FT_STRING, BASE_NONE,
2797	NULL((void*)0), 0x0,
2798	"NMEA 0183 VBW Stern traverse ground speed status, A means data is valid", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2799	{&hf_nmea0183_vhw_true_heading,
2800	{"True heading", "nmea0183.vhw_true_heading",
2801	FT_STRING, BASE_NONE,
2802	NULL((void*)0), 0x0,
2803	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2804	{&hf_nmea0183_vhw_true_heading_unit,
2805	{"Heading unit", "nmea0183.vhw_true_heading_unit",
2806	FT_STRING, BASE_NONE,
2807	NULL((void*)0), 0x0,
2808	"NMEA 0183 VHW Heading unit, must be T", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2809	{&hf_nmea0183_vhw_magnetic_heading,
2810	{"Magnetic heading", "nmea0183.vhw_magnetic_heading",
2811	FT_STRING, BASE_NONE,
2812	NULL((void*)0), 0x0,
2813	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2814	{&hf_nmea0183_vhw_magnetic_heading_unit,
2815	{"Heading unit", "nmea0183.vhw_magnetic_heading_unit",
2816	FT_STRING, BASE_NONE,
2817	NULL((void*)0), 0x0,
2818	"NMEA 0183 VHW Heading unit, must be M", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2819	{&hf_nmea0183_vhw_water_speed_knot,
2820	{"Water speed", "nmea0183.vhw_water_speed_knot",
2821	FT_STRING, BASE_NONE,
2822	NULL((void*)0), 0x0,
2823	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2824	{&hf_nmea0183_vhw_water_speed_knot_unit,
2825	{"Speed unit", "nmea0183.vhw_water_speed_knot_unit",
2826	FT_STRING, BASE_NONE,
2827	NULL((void*)0), 0x0,
2828	"NMEA 0183 VHW Water speed unit, must be N", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2829	{&hf_nmea0183_vhw_water_speed_kilometer,
2830	{"Water speed", "nmea0183.vhw_water_speed_kilometer",
2831	FT_STRING, BASE_NONE,
2832	NULL((void*)0), 0x0,
2833	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2834	{&hf_nmea0183_vhw_water_speed_kilometer_unit,
2835	{"Speed unit", "nmea0183.vhw_water_speed_kilometer_unit",
2836	FT_STRING, BASE_NONE,
2837	NULL((void*)0), 0x0,
2838	"NMEA 0183 VHW Water speed unit, must be K", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2839	{&hf_nmea0183_vlw_cumulative_water,
2840	{"Cumulative water distance", "nmea0183.vlw_hf_nmea0183_vlw_cumulative_water",
2841	FT_STRING, BASE_NONE,
2842	NULL((void*)0), 0x0,
2843	"NMEA 0183 VLW Total cumulative water distance, nautical miles", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2844	{&hf_nmea0183_vlw_cumulative_water_unit,
2845	{"Distance unit", "nmea0183.vlw_cumulative_water_unit",
2846	FT_STRING, BASE_NONE,
2847	NULL((void*)0), 0x0,
2848	"NMEA 0183 VLW Distance unit, must be N", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2849	{&hf_nmea0183_vlw_trip_water,
2850	{"Trip water distance", "nmea0183.vlw_hf_nmea0183_vlw_trip_water",
2851	FT_STRING, BASE_NONE,
2852	NULL((void*)0), 0x0,
2853	"NMEA 0183 VLW Water distance since Reset, nautical miles", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2854	{&hf_nmea0183_vlw_trip_water_unit,
2855	{"Distance unit", "nmea0183.vlw_trip_water_unit",
2856	FT_STRING, BASE_NONE,
2857	NULL((void*)0), 0x0,
2858	"NMEA 0183 VLW Distance unit, must be N", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2859	{&hf_nmea0183_vlw_cumulative_ground,
2860	{"Cumulative ground distance", "nmea0183.vlw_hf_nmea0183_vlw_cumulative_ground",
2861	FT_STRING, BASE_NONE,
2862	NULL((void*)0), 0x0,
2863	"NMEA 0183 VLW Total cumulative ground distance, nautical miles (NMEA 3 and above)", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2864	{&hf_nmea0183_vlw_cumulative_ground_unit,
2865	{"Distance unit", "nmea0183.vlw_cumulative_ground_unit",
2866	FT_STRING, BASE_NONE,
2867	NULL((void*)0), 0x0,
2868	"NMEA 0183 VLW Distance unit, must be N", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2869	{&hf_nmea0183_vlw_trip_ground,
2870	{"Trip ground distance", "nmea0183.vlw_hf_nmea0183_vlw_trip_ground",
2871	FT_STRING, BASE_NONE,
2872	NULL((void*)0), 0x0,
2873	"NMEA 0183 VLW Ground distance since Reset, nautical miles (NMEA 3 and above)", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2874	{&hf_nmea0183_vlw_trip_ground_unit,
2875	{"Distance unit", "nmea0183.vlw_trip_ground_unit",
2876	FT_STRING, BASE_NONE,
2877	NULL((void*)0), 0x0,
2878	"NMEA 0183 VLW Distance unit, must be N", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2879	{&hf_nmea0183_vtg_true_course,
2880	{"True course over ground", "nmea0183.vtg_true_course",
2881	FT_STRING, BASE_NONE,
2882	NULL((void*)0), 0x0,
2883	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2884	{&hf_nmea0183_vtg_true_course_unit,
2885	{"Course unit", "nmea0183.vtg_true_course_unit",
2886	FT_STRING, BASE_NONE,
2887	NULL((void*)0), 0x0,
2888	"NMEA 0183 VTG Course unit, must be T", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2889	{&hf_nmea0183_vtg_magnetic_course,
2890	{"Magnetic course over ground", "nmea0183.vtg_magnetic_course",
2891	FT_STRING, BASE_NONE,
2892	NULL((void*)0), 0x0,
2893	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2894	{&hf_nmea0183_vtg_magnetic_course_unit,
2895	{"Course unit", "nmea0183.vtg_magnetic_course_unit",
2896	FT_STRING, BASE_NONE,
2897	NULL((void*)0), 0x0,
2898	"NMEA 0183 VTG Course unit, must be M", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2899	{&hf_nmea0183_vtg_ground_speed_knot,
2900	{"Speed over ground", "nmea0183.vtg_ground_speed_knot",
2901	FT_STRING, BASE_NONE,
2902	NULL((void*)0), 0x0,
2903	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2904	{&hf_nmea0183_vtg_ground_speed_knot_unit,
2905	{"Speed unit", "nmea0183.vtg_ground_speed_knot_unit",
2906	FT_STRING, BASE_NONE,
2907	NULL((void*)0), 0x0,
2908	"NMEA 0183 VTG Ground speed unit, must be N", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2909	{&hf_nmea0183_vtg_ground_speed_kilometer,
2910	{"Speed over ground", "nmea0183.vtg_ground_speed_kilometer",
2911	FT_STRING, BASE_NONE,
2912	NULL((void*)0), 0x0,
2913	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2914	{&hf_nmea0183_vtg_ground_speed_kilometer_unit,
2915	{"Speed unit", "nmea0183.vtg_ground_speed_kilometer_unit",
2916	FT_STRING, BASE_NONE,
2917	NULL((void*)0), 0x0,
2918	"NMEA 0183 VTG Ground speed unit, must be K", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2919	{&hf_nmea0183_vtg_mode,
2920	{"FAA mode", "nmea0183.vtg_mode",
2921	FT_STRING, BASE_NONE,
2922	NULL((void*)0), 0x0,
2923	"NMEA 0183 VTG FAA mode indicator (NMEA 2.3 and later)", HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void*)0)}},
2924	{&hf_nmea0183_zda_time,
2925	{"UTC Time", "nmea0183.zda_time",
2926	FT_NONE, BASE_NONE,
2927	NULL((void*)0), 0x0,
2928	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2929	{&hf_nmea0183_zda_time_hour,
2930	{"Hour", "nmea0183.zda_time_hour",
2931	FT_STRING, BASE_NONE,
2932	NULL((void*)0), 0x0,
2933	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2934	{&hf_nmea0183_zda_time_minute,
2935	{"Minute", "nmea0183.zda_time_minute",
2936	FT_STRING, BASE_NONE,
2937	NULL((void*)0), 0x0,
2938	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2939	{&hf_nmea0183_zda_time_second,
2940	{"Second", "nmea0183.zda_time_second",
2941	FT_STRING, BASE_NONE,
2942	NULL((void*)0), 0x0,
2943	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2944	{&hf_nmea0183_zda_date_day,
2945	{"Day", "nmea0183.zda_date_day",
2946	FT_STRING, BASE_NONE,
2947	NULL((void*)0), 0x0,
2948	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2949	{&hf_nmea0183_zda_date_month,
2950	{"Month", "nmea0183.zda_date_month",
2951	FT_STRING, BASE_NONE,
2952	NULL((void*)0), 0x0,
2953	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2954	{&hf_nmea0183_zda_date_year,
2955	{"Year", "nmea0183.zda_date_year",
2956	FT_STRING, BASE_NONE,
2957	NULL((void*)0), 0x0,
2958	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2959	{&hf_nmea0183_zda_local_zone_hour,
2960	{"Local zone hour", "nmea0183.zda_local_zone_hour",
2961	FT_STRING, BASE_NONE,
2962	NULL((void*)0), 0x0,
2963	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2964	{ &hf_nmea0183_zda_local_zone_minute,
2965	{"Local zone minute", "nmea0183.zda_local_zone_minute",
2966	FT_STRING, BASE_NONE,
2967	NULL((void*)0), 0x0,
2968	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0)}},
2969	{ &hf_nmea0183_sentence_prefix,
2970	{ "Sentence prefix", "nmea0183.sentence_prefix",
2971	FT_STRING, BASE_NONE,
2972	NULL((void*)0), 0x0,
2973	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) }},
2974	{ &hf_nmea0183_tag_block,
2975	{ "Tag block", "nmea0183.tag_block",
2976	FT_STRING, BASE_NONE,
2977	NULL((void*)0), 0x0,
2978	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) }},
2979	{ &hf_nmea0183_bin_version,
2980	{ "Version", "nmea0183.bin.version",
2981	FT_UINT16, BASE_DEC,
2982	NULL((void*)0), 0x0,
2983	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) }},
2984	{ &hf_nmea0183_bin_srcid,
2985	{ "Source Id", "nmea0183.bin.src_id",
2986	FT_STRING, BASE_NONE,
2987	NULL((void*)0), 0x0,
2988	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) }},
2989	{ &hf_nmea0183_bin_dstid,
2990	{ "Destination Id", "nmea0183.bin.dst_id",
2991	FT_STRING, BASE_NONE,
2992	NULL((void*)0), 0x0,
2993	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
2994	{ &hf_nmea0183_bin_mtype,
2995	{ "Mtype", "nmea0183.bin.mtype",
2996	FT_UINT16, BASE_DEC,
2997	VALS(nmea0183_bin_mtype_vals)((0 ? (const struct _value_string*)0 : ((nmea0183_bin_mtype_vals )))), 0x0,
2998	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
2999	{ &hf_nmea0183_bin_blockid,
3000	{ "Blockid", "nmea0183.bin.blockid",
3001	FT_UINT32, BASE_DEC,
3002	NULL((void*)0), 0x0,
3003	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3004	{ &hf_nmea0183_bin_seqnum,
3005	{ "Sequence number", "nmea0183.bin.seqnum",
3006	FT_UINT32, BASE_DEC,
3007	NULL((void*)0), 0x0,
3008	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3009	{ &hf_nmea0183_bin_max_seqnum,
3010	{ "Max Sequence number", "nmea0183.bin.maxseqnum",
3011	FT_UINT32, BASE_DEC,
3012	NULL((void*)0), 0x0,
3013	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3014	{ &hf_nmea0183_bin_data,
3015	{ "Data", "nmea0183.bin.data",
3016	FT_BYTES, BASE_NONE,
3017	NULL((void*)0), 0x0,
3018	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3019	{ &hf_nmea0183_bin_file_descriptor,
3020	{ "File descriptor", "nmea0183.bin.file_descriptor",
3021	FT_STRING, BASE_NONE,
3022	NULL((void*)0), 0x0,
3023	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3024	{ &hf_nmea0183_bin_file_descriptor_len,
3025	{ "File descriptor length", "nmea0183.bin.fd_len",
3026	FT_UINT32, BASE_DEC,
3027	NULL((void*)0), 0x0,
3028	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3029	{ &hf_nmea0183_bin_file_length,
3030	{ "File length", "nmea0183.bin.file_len",
3031	FT_UINT32, BASE_DEC,
3032	NULL((void*)0), 0x0,
3033	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3034	{ &hf_nmea0183_bin_stat_of_acquisition,
3035	{ "Status of acquisition", "nmea0183.bin.stat_of_acquisition",
3036	FT_UINT16, BASE_DEC,
3037	NULL((void*)0), 0x0,
3038	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3039	{ &hf_nmea0183_bin_device,
3040	{ "Device", "nmea0183.bin.device",
3041	FT_UINT8, BASE_HEX,
3042	NULL((void*)0), 0x0,
3043	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3044	{ &hf_nmea0183_bin_channel,
3045	{ "Channel", "nmea0183.bin.channel",
3046	FT_UINT8, BASE_HEX,
3047	NULL((void*)0), 0x0,
3048	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3049	{ &hf_nmea0183_bin_type_len,
3050	{ "Type length", "nmea0183.bin.type_len",
3051	FT_UINT8, BASE_DEC,
3052	NULL((void*)0), 0x0,
3053	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3054	{ &hf_nmea0183_bin_data_type,
3055	{ "Data type", "nmea0183.bin.data_type",
3056	FT_STRING, BASE_NONE,
3057	NULL((void*)0), 0x0,
3058	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3059	{ &hf_nmea0183_bin_status_and_info,
3060	{ "Status and information text", "nmea0183.bin.status_and_info",
3061	FT_STRING, BASE_NONE,
3062	NULL((void*)0), 0x0,
3063	NULL((void)0), HFILL-1, 0, HF_REF_TYPE_NONE, -1, ((void)0) } },
3064	};
3065
3066	/* Setup protocol subtree array */
3067	static int *ett[] = {
3068	&ett_nmea0183,
3069	&ett_nmea0183_checksum,
3070	&ett_nmea0183_sentence,
3071	&ett_nmea0183_zda_time,
3072	&ett_nmea0183_alr_time,
3073	&ett_nmea0183_gga_time,
3074	&ett_nmea0183_gga_latitude,
3075	&ett_nmea0183_gga_longitude,
3076	&ett_nmea0183_gll_time,
3077	&ett_nmea0183_gll_latitude,
3078	&ett_nmea0183_gll_longitude,
3079	&ett_nmea0183_gst_time,
3080	&ett_nmea0183_tag_block,
3081	&ett_nmea0183_fd
3082	};
3083
3084	static ei_register_info ei[] = {
3085	{&ei_nmea0183_invalid_first_character,
3086	{"nmea0183.invalid_first_character", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3087	"First character should be '$'", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3088	{&ei_nmea0183_missing_checksum_character,
3089	{"nmea0183.missing_checksum_character", PI_MALFORMED0x07000000, PI_ERROR0x00800000,
3090	"Missing begin of checksum character ''", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void)0)}}}},
3091	{&ei_nmea0183_invalid_end_of_line,
3092	{"nmea0183.invalid_end_of_line", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3093	"Sentence should end with <CR><LF>", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3094	{&ei_nmea0183_checksum_incorrect,
3095	{"nmea0183.checksum_incorrect", PI_CHECKSUM0x01000000, PI_WARN0x00600000,
3096	"Incorrect checksum", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3097	{&ei_nmea0183_sentence_too_long,
3098	{"nmea0183.sentence_too_long", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3099	"Sentence is too long. Maximum is 82 bytes including $ and <CR><LF>", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3100	{&ei_nmea0183_field_time_too_short,
3101	{"nmea0183.field_time_too_short", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3102	"Field containing time is too short. Field should be at least 6 characters", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3103	{&ei_nmea0183_field_latitude_too_short,
3104	{"nmea0183.field_latitude_too_short", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3105	"Field containing latitude is too short. Field should be at least 4 characters", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3106	{&ei_nmea0183_field_longitude_too_short,
3107	{"nmea0183.field_longitude_too_short", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3108	"Field containing longitude is too short. Field should be at least 5 characters", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3109	{&ei_nmea0183_field_missing,
3110	{"nmea0183.field_missing", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3111	"Field expected, but not found", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3112	{&ei_nmea0183_gga_altitude_unit_incorrect,
3113	{"nmea0183.gga_altitude_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3114	"Incorrect altitude unit (should be 'M')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3115	{&ei_nmea0183_gga_geoidal_separation_unit_incorrect,
3116	{"nmea0183.gga_geoidal_separation_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3117	"Incorrect geoidal separation unit (should be 'M')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3118	{&ei_nmea0183_hdt_unit_incorrect,
3119	{"nmea0183.hdt_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3120	"Incorrect heading unit (should be 'T')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3121	{&ei_nmea0183_vhw_true_heading_unit_incorrect,
3122	{"nmea0183.vhw_true_heading_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3123	"Incorrect heading unit (should be 'T')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3124	{&ei_nmea0183_vhw_magnetic_heading_unit_incorrect,
3125	{"nmea0183.vhw_magnetic_heading_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3126	"Incorrect heading unit (should be 'M')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3127	{&ei_nmea0183_vhw_water_speed_knot_unit_incorrect,
3128	{"nmea0183.vhw_water_speed_knot_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3129	"Incorrect speed unit (should be 'N')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3130	{&ei_nmea0183_vhw_water_speed_kilometer_unit_incorrect,
3131	{"nmea0183.vhw_water_speed_kilometer_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3132	"Incorrect speed unit (should be 'K')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3133	{&ei_nmea0183_vlw_cumulative_water_unit_incorrect,
3134	{"nmea0183.vlw_cumulative_water_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3135	"Incorrect distance unit (should be 'N')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3136	{&ei_nmea0183_vlw_trip_water_unit_incorrect,
3137	{"nmea0183.vlw_trip_water_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3138	"Incorrect distance unit (should be 'N')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3139	{&ei_nmea0183_vlw_cumulative_ground_unit_incorrect,
3140	{"nmea0183.vlw_cumulative_ground_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3141	"Incorrect distance unit (should be 'N')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3142	{&ei_nmea0183_vlw_trip_ground_unit_incorrect,
3143	{"nmea0183.vlw_trip_ground_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3144	"Incorrect distance unit (should be 'N')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3145	{&ei_nmea0183_vtg_true_course_unit_incorrect,
3146	{"nmea0183.vtg_true_course_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3147	"Incorrect course unit (should be 'T')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3148	{&ei_nmea0183_vtg_magnetic_course_unit_incorrect,
3149	{"nmea0183.vtg_magnetic_course_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3150	"Incorrect course unit (should be 'M')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3151	{&ei_nmea0183_vtg_ground_speed_knot_unit_incorrect,
3152	{"nmea0183.vtg_ground_speed_knot_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3153	"Incorrect speed unit (should be 'N')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}},
3154	{&ei_nmea0183_vtg_ground_speed_kilometer_unit_incorrect,
3155	{"nmea0183.vtg_ground_speed_kilometer_unit_incorrect", PI_PROTOCOL0x09000000, PI_WARN0x00600000,
3156	"Incorrect speed unit (should be 'K')", EXPFILL0, ((void)0), 0, ((void)0), {0, {((void)0), ((void)0), FT_NONE , BASE_NONE, ((void)0), 0, ((void)0), -1, 0, HF_REF_TYPE_NONE , -1, ((void*)0)}}}}};
3157
3158	proto_nmea0183 = proto_register_protocol("NMEA 0183 protocol", "NMEA 0183", "nmea0183");
3159	proto_nmea0183_bin = proto_register_protocol("NMEA 0183 binary protocol", "NMEA 0183 BIN", "nmea0183_bin");
3160
3161	proto_register_field_array(proto_nmea0183, hf, array_length(hf)(sizeof (hf) / sizeof (hf)[0]));
3162	proto_register_subtree_array(ett, array_length(ett)(sizeof (ett) / sizeof (ett)[0]));
3163	expert_nmea0183 = expert_register_protocol(proto_nmea0183);
3164	expert_register_field_array(expert_nmea0183, ei, array_length(ei)(sizeof (ei) / sizeof (ei)[0]));
3165
3166	nmea0183_handle = register_dissector("nmea0183", dissect_nmea0183, proto_nmea0183);
3167	}
3168
3169	void proto_reg_handoff_nmea0183(void)
3170	{
3171	/* Register the UDP PDU NMEA0183 handle for heuristic dissection */
3172	heur_dissector_add("udp", dissect_nmea0183_heur, "NMEA0183 over UDP",
3173	"nmea0183_udp", proto_nmea0183, HEURISTIC_DISABLE);
3174	dissector_add_for_decode_as_with_preference("udp.port", nmea0183_handle);
3175	}