Rev 360 | Go to most recent revision | Only display areas with differences | Ignore whitespace | Details | Blame | Last modification | View Log | RSS feed
Rev 360 | Rev 392 | ||
---|---|---|---|
1 | /*#######################################################################################*/ |
1 | /*#######################################################################################*/ |
2 | /* !!! THIS IS NOT FREE SOFTWARE !!! */ |
2 | /* !!! THIS IS NOT FREE SOFTWARE !!! */ |
3 | /*#######################################################################################*/ |
3 | /*#######################################################################################*/ |
4 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
4 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
5 | // + www.MikroKopter.com |
5 | // + www.MikroKopter.com |
6 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
6 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
7 | // + Software Nutzungsbedingungen (english version: see below) |
7 | // + Software Nutzungsbedingungen (english version: see below) |
8 | // + der Fa. HiSystems GmbH, Flachsmeerstrasse 2, 26802 Moormerland - nachfolgend Lizenzgeber genannt - |
8 | // + der Fa. HiSystems GmbH, Flachsmeerstrasse 2, 26802 Moormerland - nachfolgend Lizenzgeber genannt - |
9 | // + Der Lizenzgeber räumt dem Kunden ein nicht-ausschließliches, zeitlich und räumlich* unbeschränktes Recht ein, die im den |
9 | // + Der Lizenzgeber räumt dem Kunden ein nicht-ausschließliches, zeitlich und räumlich* unbeschränktes Recht ein, die im den |
10 | // + Mikrocontroller verwendete Firmware für die Hardware Flight-Ctrl, Navi-Ctrl, BL-Ctrl, MK3Mag & PC-Programm MikroKopter-Tool |
10 | // + Mikrocontroller verwendete Firmware für die Hardware Flight-Ctrl, Navi-Ctrl, BL-Ctrl, MK3Mag & PC-Programm MikroKopter-Tool |
11 | // + - nachfolgend Software genannt - nur für private Zwecke zu nutzen. |
11 | // + - nachfolgend Software genannt - nur für private Zwecke zu nutzen. |
12 | // + Der Einsatz dieser Software ist nur auf oder mit Produkten des Lizenzgebers zulässig. |
12 | // + Der Einsatz dieser Software ist nur auf oder mit Produkten des Lizenzgebers zulässig. |
13 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
13 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
14 | // + Die vom Lizenzgeber gelieferte Software ist urheberrechtlich geschützt. Alle Rechte an der Software sowie an sonstigen im |
14 | // + Die vom Lizenzgeber gelieferte Software ist urheberrechtlich geschützt. Alle Rechte an der Software sowie an sonstigen im |
15 | // + Rahmen der Vertragsanbahnung und Vertragsdurchführung überlassenen Unterlagen stehen im Verhältnis der Vertragspartner ausschließlich dem Lizenzgeber zu. |
15 | // + Rahmen der Vertragsanbahnung und Vertragsdurchführung überlassenen Unterlagen stehen im Verhältnis der Vertragspartner ausschließlich dem Lizenzgeber zu. |
16 | // + Die in der Software enthaltenen Copyright-Vermerke, Markenzeichen, andere Rechtsvorbehalte, Seriennummern sowie |
16 | // + Die in der Software enthaltenen Copyright-Vermerke, Markenzeichen, andere Rechtsvorbehalte, Seriennummern sowie |
17 | // + sonstige der Programmidentifikation dienenden Merkmale dürfen vom Kunden nicht verändert oder unkenntlich gemacht werden. |
17 | // + sonstige der Programmidentifikation dienenden Merkmale dürfen vom Kunden nicht verändert oder unkenntlich gemacht werden. |
18 | // + Der Kunde trifft angemessene Vorkehrungen für den sicheren Einsatz der Software. Er wird die Software gründlich auf deren |
18 | // + Der Kunde trifft angemessene Vorkehrungen für den sicheren Einsatz der Software. Er wird die Software gründlich auf deren |
19 | // + Verwendbarkeit zu dem von ihm beabsichtigten Zweck testen, bevor er diese operativ einsetzt. |
19 | // + Verwendbarkeit zu dem von ihm beabsichtigten Zweck testen, bevor er diese operativ einsetzt. |
20 | // + Die Haftung des Lizenzgebers wird - soweit gesetzlich zulässig - begrenzt in Höhe des typischen und vorhersehbaren |
20 | // + Die Haftung des Lizenzgebers wird - soweit gesetzlich zulässig - begrenzt in Höhe des typischen und vorhersehbaren |
21 | // + Schadens. Die gesetzliche Haftung bei Personenschäden und nach dem Produkthaftungsgesetz bleibt unberührt. Dem Lizenzgeber steht jedoch der Einwand |
21 | // + Schadens. Die gesetzliche Haftung bei Personenschäden und nach dem Produkthaftungsgesetz bleibt unberührt. Dem Lizenzgeber steht jedoch der Einwand |
22 | // + des Mitverschuldens offen. |
22 | // + des Mitverschuldens offen. |
23 | // + Der Kunde trifft angemessene Vorkehrungen für den Fall, dass die Software ganz oder teilweise nicht ordnungsgemäß arbeitet. |
23 | // + Der Kunde trifft angemessene Vorkehrungen für den Fall, dass die Software ganz oder teilweise nicht ordnungsgemäß arbeitet. |
24 | // + Er wird die Software gründlich auf deren Verwendbarkeit zu dem von ihm beabsichtigten Zweck testen, bevor er diese operativ einsetzt. |
24 | // + Er wird die Software gründlich auf deren Verwendbarkeit zu dem von ihm beabsichtigten Zweck testen, bevor er diese operativ einsetzt. |
25 | // + Der Kunde wird er seine Daten vor Einsatz der Software nach dem Stand der Technik sichern. |
25 | // + Der Kunde wird er seine Daten vor Einsatz der Software nach dem Stand der Technik sichern. |
26 | // + Der Kunde ist darüber unterrichtet, dass der Lizenzgeber seine Daten im zur Vertragsdurchführung erforderlichen Umfang |
26 | // + Der Kunde ist darüber unterrichtet, dass der Lizenzgeber seine Daten im zur Vertragsdurchführung erforderlichen Umfang |
27 | // + und auf Grundlage der Datenschutzvorschriften erhebt, speichert, verarbeitet und, sofern notwendig, an Dritte übermittelt. |
27 | // + und auf Grundlage der Datenschutzvorschriften erhebt, speichert, verarbeitet und, sofern notwendig, an Dritte übermittelt. |
28 | // + *) Die räumliche Nutzung bezieht sich nur auf den Einsatzort, nicht auf die Reichweite der programmierten Software. |
28 | // + *) Die räumliche Nutzung bezieht sich nur auf den Einsatzort, nicht auf die Reichweite der programmierten Software. |
29 | // + #### ENDE DER NUTZUNGSBEDINGUNGEN ####' |
29 | // + #### ENDE DER NUTZUNGSBEDINGUNGEN ####' |
30 | // + Hinweis: Informationen über erweiterte Nutzungsrechte (wie z.B. Nutzung für nicht-private Zwecke) sind auf Anfrage per Email an info(@)hisystems.de verfügbar. |
30 | // + Hinweis: Informationen über erweiterte Nutzungsrechte (wie z.B. Nutzung für nicht-private Zwecke) sind auf Anfrage per Email an info(@)hisystems.de verfügbar. |
31 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
31 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
32 | // + Software LICENSING TERMS |
32 | // + Software LICENSING TERMS |
33 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
33 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
34 | // + of HiSystems GmbH, Flachsmeerstrasse 2, 26802 Moormerland, Germany - the Licensor - |
34 | // + of HiSystems GmbH, Flachsmeerstrasse 2, 26802 Moormerland, Germany - the Licensor - |
35 | // + The Licensor grants the customer a non-exclusive license to use the microcontroller firmware of the Flight-Ctrl, Navi-Ctrl, BL-Ctrl, and MK3Mag hardware |
35 | // + The Licensor grants the customer a non-exclusive license to use the microcontroller firmware of the Flight-Ctrl, Navi-Ctrl, BL-Ctrl, and MK3Mag hardware |
36 | // + (the Software) exclusively for private purposes. The License is unrestricted with respect to time and territory*. |
36 | // + (the Software) exclusively for private purposes. The License is unrestricted with respect to time and territory*. |
37 | // + The Software may only be used with the Licensor's products. |
37 | // + The Software may only be used with the Licensor's products. |
38 | // + The Software provided by the Licensor is protected by copyright. With respect to the relationship between the parties to this |
38 | // + The Software provided by the Licensor is protected by copyright. With respect to the relationship between the parties to this |
39 | // + agreement, all rights pertaining to the Software and other documents provided during the preparation and execution of this |
39 | // + agreement, all rights pertaining to the Software and other documents provided during the preparation and execution of this |
40 | // + agreement shall be the property of the Licensor. |
40 | // + agreement shall be the property of the Licensor. |
41 | // + The information contained in the Software copyright notices, trademarks, other legal reservations, serial numbers and other |
41 | // + The information contained in the Software copyright notices, trademarks, other legal reservations, serial numbers and other |
42 | // + features that can be used to identify the program may not be altered or defaced by the customer. |
42 | // + features that can be used to identify the program may not be altered or defaced by the customer. |
43 | // + The customer shall be responsible for taking reasonable precautions |
43 | // + The customer shall be responsible for taking reasonable precautions |
44 | // + for the safe use of the Software. The customer shall test the Software thoroughly regarding its suitability for the |
44 | // + for the safe use of the Software. The customer shall test the Software thoroughly regarding its suitability for the |
45 | // + intended purpose before implementing it for actual operation. The Licensor's liability shall be limited to the extent of typical and |
45 | // + intended purpose before implementing it for actual operation. The Licensor's liability shall be limited to the extent of typical and |
46 | // + foreseeable damage to the extent permitted by law, notwithstanding statutory liability for bodily injury and product |
46 | // + foreseeable damage to the extent permitted by law, notwithstanding statutory liability for bodily injury and product |
47 | // + liability. However, the Licensor shall be entitled to the defense of contributory negligence. |
47 | // + liability. However, the Licensor shall be entitled to the defense of contributory negligence. |
48 | // + The customer will take adequate precautions in the case, that the software is not working properly. The customer will test |
48 | // + The customer will take adequate precautions in the case, that the software is not working properly. The customer will test |
49 | // + the software for his purpose before any operational usage. The customer will backup his data before using the software. |
49 | // + the software for his purpose before any operational usage. The customer will backup his data before using the software. |
50 | // + The customer understands that the Licensor collects, stores and processes, and, where required, forwards, customer data |
50 | // + The customer understands that the Licensor collects, stores and processes, and, where required, forwards, customer data |
51 | // + to third parties to the extent necessary for executing the agreement, subject to applicable data protection and privacy regulations. |
51 | // + to third parties to the extent necessary for executing the agreement, subject to applicable data protection and privacy regulations. |
52 | // + *) The territory aspect only refers to the place where the Software is used, not its programmed range. |
52 | // + *) The territory aspect only refers to the place where the Software is used, not its programmed range. |
53 | // + #### END OF LICENSING TERMS #### |
53 | // + #### END OF LICENSING TERMS #### |
54 | // + Note: For information on license extensions (e.g. commercial use), please contact us at info(@)hisystems.de. |
54 | // + Note: For information on license extensions (e.g. commercial use), please contact us at info(@)hisystems.de. |
55 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
55 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
56 | #include <string.h> |
56 | #include <string.h> |
57 | #include "91x_lib.h" |
57 | #include "91x_lib.h" |
58 | #include "uart1.h" |
58 | #include "uart1.h" |
59 | #include "ubx.h" |
59 | #include "ubx.h" |
60 | #include "led.h" |
60 | #include "led.h" |
61 | #include "timer1.h" |
61 | #include "timer1.h" |
62 | 62 | ||
63 | // ------------------------------------------------------------------------------------------------ |
63 | // ------------------------------------------------------------------------------------------------ |
64 | // defines |
64 | // defines |
65 | 65 | ||
66 | #define DAYS_FROM_JAN01YEAR0001_TO_JAN6_1980 722819 // the year 0 does not exist! |
66 | #define DAYS_FROM_JAN01YEAR0001_TO_JAN6_1980 722819 // the year 0 does not exist! |
67 | #define DAYS_PER_YEAR 365 |
67 | #define DAYS_PER_YEAR 365 |
68 | #define DAYS_PER_LEAPYEAR 366 |
68 | #define DAYS_PER_LEAPYEAR 366 |
69 | #define DAYS_PER_4YEARS 1461 //((3 * DAYS_PER_YEAR) + DAYS_PER_LEAPYEAR) // years dividable by 4 are leap years |
69 | #define DAYS_PER_4YEARS 1461 //((3 * DAYS_PER_YEAR) + DAYS_PER_LEAPYEAR) // years dividable by 4 are leap years |
70 | #define DAYS_PER_100YEARS 36524 //((25 * DAYS_PER_4YEARS) - 1) // years dividable by 100 are no leap years |
70 | #define DAYS_PER_100YEARS 36524 //((25 * DAYS_PER_4YEARS) - 1) // years dividable by 100 are no leap years |
71 | #define DAYS_PER_400YEARS 146097 //((4 * DAYS_PER_100YEARS) + 1L) // but years dividable by 400 are leap years |
71 | #define DAYS_PER_400YEARS 146097 //((4 * DAYS_PER_100YEARS) + 1L) // but years dividable by 400 are leap years |
72 | #define SECONDS_PER_MINUTE 60 |
72 | #define SECONDS_PER_MINUTE 60 |
73 | #define MINUTES_PER_HOUR 60 |
73 | #define MINUTES_PER_HOUR 60 |
74 | #define HOURS_PER_DAY 24 |
74 | #define HOURS_PER_DAY 24 |
75 | #define DAYS_PER_WEEK 7 |
75 | #define DAYS_PER_WEEK 7 |
76 | #define SECONDS_PER_HOUR 3600 //(SECONDS_PER_MINUTE * MINUTES_PER_HOUR) |
76 | #define SECONDS_PER_HOUR 3600 //(SECONDS_PER_MINUTE * MINUTES_PER_HOUR) |
77 | #define SECONDS_PER_DAY 86400 //(SECONDS_PER_HOUR * HOURS_PER_DAY) |
77 | #define SECONDS_PER_DAY 86400 //(SECONDS_PER_HOUR * HOURS_PER_DAY) |
78 | #define SECONDS_PER_WEEK 604800 //(SECONDS_PER_DAY * DAYS_PER_WEEK) |
78 | #define SECONDS_PER_WEEK 604800 //(SECONDS_PER_DAY * DAYS_PER_WEEK) |
79 | 79 | ||
80 | // days per month in normal and leap years |
80 | // days per month in normal and leap years |
81 | const u32 Leap[ 13 ] = { 0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335, 366 }; |
81 | const u32 Leap[ 13 ] = { 0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335, 366 }; |
82 | const u32 Normal[ 13 ] = { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365 }; |
82 | const u32 Normal[ 13 ] = { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365 }; |
83 | 83 | ||
84 | #define LEAP_SECONDS_FROM_1980 15 |
84 | #define LEAP_SECONDS_FROM_1980 15 |
85 | 85 | ||
86 | // message sync bytes |
86 | // message sync bytes |
87 | #define UBX_SYNC1_CHAR 0xB5 |
87 | #define UBX_SYNC1_CHAR 0xB5 |
88 | #define UBX_SYNC2_CHAR 0x62 |
88 | #define UBX_SYNC2_CHAR 0x62 |
89 | // protocoll identifiers |
89 | // protocoll identifiers |
90 | // navigation class |
90 | // navigation class |
91 | #define UBX_CLASS_NAV 0x01 |
91 | #define UBX_CLASS_NAV 0x01 |
92 | #define UBX_ID_POSLLH 0x02 |
92 | #define UBX_ID_POSLLH 0x02 |
93 | #define UBX_ID_SOL 0x06 |
93 | #define UBX_ID_SOL 0x06 |
94 | #define UBX_ID_VELNED 0x12 |
94 | #define UBX_ID_VELNED 0x12 |
95 | 95 | ||
96 | // ------------------------------------------------------------------------------------------------ |
96 | // ------------------------------------------------------------------------------------------------ |
97 | // typedefs |
97 | // typedefs |
98 | 98 | ||
99 | 99 | ||
100 | // ubx parser state |
100 | // ubx parser state |
101 | typedef enum |
101 | typedef enum |
102 | { |
102 | { |
103 | UBXSTATE_IDLE, |
103 | UBXSTATE_IDLE, |
104 | UBXSTATE_SYNC1, |
104 | UBXSTATE_SYNC1, |
105 | UBXSTATE_SYNC2, |
105 | UBXSTATE_SYNC2, |
106 | UBXSTATE_CLASS, |
106 | UBXSTATE_CLASS, |
107 | UBXSTATE_LEN1, |
107 | UBXSTATE_LEN1, |
108 | UBXSTATE_LEN2, |
108 | UBXSTATE_LEN2, |
109 | UBXSTATE_DATA, |
109 | UBXSTATE_DATA, |
110 | UBXSTATE_CKA, |
110 | UBXSTATE_CKA, |
111 | UBXSTATE_CKB |
111 | UBXSTATE_CKB |
112 | } ubxState_t; |
112 | } ubxState_t; |
113 | 113 | ||
114 | typedef struct |
114 | typedef struct |
115 | { |
115 | { |
116 | u32 itow; // ms GPS Millisecond Time of Week |
116 | u32 itow; // ms GPS Millisecond Time of Week |
117 | s32 frac; // ns remainder of rounded ms above |
117 | s32 frac; // ns remainder of rounded ms above |
118 | s16 week; // GPS week |
118 | s16 week; // GPS week |
119 | u8 GPSfix; // GPSfix Type, range 0..6 |
119 | u8 GPSfix; // GPSfix Type, range 0..6 |
120 | u8 Flags; // Navigation Status Flags |
120 | u8 Flags; // Navigation Status Flags |
121 | s32 ECEF_X; // cm ECEF X coordinate |
121 | s32 ECEF_X; // cm ECEF X coordinate |
122 | s32 ECEF_Y; // cm ECEF Y coordinate |
122 | s32 ECEF_Y; // cm ECEF Y coordinate |
123 | s32 ECEF_Z; // cm ECEF Z coordinate |
123 | s32 ECEF_Z; // cm ECEF Z coordinate |
124 | u32 PAcc; // cm 3D Position Accuracy Estimate |
124 | u32 PAcc; // cm 3D Position Accuracy Estimate |
125 | s32 ECEFVX; // cm/s ECEF X velocity |
125 | s32 ECEFVX; // cm/s ECEF X velocity |
126 | s32 ECEFVY; // cm/s ECEF Y velocity |
126 | s32 ECEFVY; // cm/s ECEF Y velocity |
127 | s32 ECEFVZ; // cm/s ECEF Z velocity |
127 | s32 ECEFVZ; // cm/s ECEF Z velocity |
128 | u32 SAcc; // cm/s Speed Accuracy Estimate |
128 | u32 SAcc; // cm/s Speed Accuracy Estimate |
129 | u16 PDOP; // 0.01 Position DOP |
129 | u16 PDOP; // 0.01 Position DOP |
130 | u8 res1; // reserved |
130 | u8 res1; // reserved |
131 | u8 numSV; // Number of SVs used in navigation solution |
131 | u8 numSV; // Number of SVs used in navigation solution |
132 | u32 res2; // reserved |
132 | u32 res2; // reserved |
133 | u8 Status; // invalid/newdata/processed |
133 | u8 Status; // invalid/newdata/processed |
134 | } __attribute__((packed)) ubx_nav_sol_t; |
134 | } __attribute__((packed)) ubx_nav_sol_t; |
135 | 135 | ||
136 | 136 | ||
137 | typedef struct |
137 | typedef struct |
138 | { |
138 | { |
139 | u32 itow; // ms GPS Millisecond Time of Week |
139 | u32 itow; // ms GPS Millisecond Time of Week |
140 | s32 VEL_N; // cm/s NED north velocity |
140 | s32 VEL_N; // cm/s NED north velocity |
141 | s32 VEL_E; // cm/s NED east velocity |
141 | s32 VEL_E; // cm/s NED east velocity |
142 | s32 VEL_D; // cm/s NED down velocity |
142 | s32 VEL_D; // cm/s NED down velocity |
143 | u32 Speed; // cm/s Speed (3-D) |
143 | u32 Speed; // cm/s Speed (3-D) |
144 | u32 GSpeed; // cm/s Ground Speed (2-D) |
144 | u32 GSpeed; // cm/s Ground Speed (2-D) |
145 | s32 Heading; // 1e-05 deg Heading 2-D |
145 | s32 Heading; // 1e-05 deg Heading 2-D |
146 | u32 SAcc; // cm/s Speed Accuracy Estimate |
146 | u32 SAcc; // cm/s Speed Accuracy Estimate |
147 | u32 CAcc; // deg Course / Heading Accuracy Estimate |
147 | u32 CAcc; // deg Course / Heading Accuracy Estimate |
148 | u8 Status; // invalid/newdata/processed |
148 | u8 Status; // invalid/newdata/processed |
149 | } __attribute__((packed)) ubx_nav_velned_t; |
149 | } __attribute__((packed)) ubx_nav_velned_t; |
150 | 150 | ||
151 | typedef struct |
151 | typedef struct |
152 | { |
152 | { |
153 | u32 itow; // ms GPS Millisecond Time of Week |
153 | u32 itow; // ms GPS Millisecond Time of Week |
154 | s32 LON; // 1e-07 deg Longitude |
154 | s32 LON; // 1e-07 deg Longitude |
155 | s32 LAT; // 1e-07 deg Latitude |
155 | s32 LAT; // 1e-07 deg Latitude |
156 | s32 HEIGHT; // mm Height above Ellipsoid |
156 | s32 HEIGHT; // mm Height above Ellipsoid |
157 | s32 HMSL; // mm Height above mean sea level |
157 | s32 HMSL; // mm Height above mean sea level |
158 | u32 Hacc; // mm Horizontal Accuracy Estimate |
158 | u32 Hacc; // mm Horizontal Accuracy Estimate |
159 | u32 Vacc; // mm Vertical Accuracy Estimate |
159 | u32 Vacc; // mm Vertical Accuracy Estimate |
160 | u8 Status; // invalid/newdata/processed |
160 | u8 Status; // invalid/newdata/processed |
161 | } __attribute__((packed)) ubx_nav_posllh_t; |
161 | } __attribute__((packed)) ubx_nav_posllh_t; |
162 | 162 | ||
163 | //------------------------------------------------------------------------------------ |
163 | //------------------------------------------------------------------------------------ |
164 | // global variables |
164 | // global variables |
165 | 165 | ||
166 | // local buffers for the incomming ubx messages |
166 | // local buffers for the incomming ubx messages |
167 | ubx_nav_sol_t UbxSol = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, INVALID}; |
167 | ubx_nav_sol_t UbxSol = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, INVALID}; |
168 | ubx_nav_posllh_t UbxPosLlh = {0,0,0,0,0,0,0, INVALID}; |
168 | ubx_nav_posllh_t UbxPosLlh = {0,0,0,0,0,0,0, INVALID}; |
169 | ubx_nav_velned_t UbxVelNed = {0,0,0,0,0,0,0,0,0, INVALID}; |
169 | ubx_nav_velned_t UbxVelNed = {0,0,0,0,0,0,0,0,0, INVALID}; |
170 | ubxmsg_t UbxMsg; |
170 | ubxmsg_t UbxMsg; |
171 | 171 | ||
172 | // shared buffer |
172 | // shared buffer |
173 | gps_data_t GPSData = {200,{0,0,0,INVALID},0,0,0,0,0,0,0, INVALID}; |
173 | gps_data_t GPSData = {200,{0,0,0,INVALID},0,0,0,0,0,0,0, INVALID}; |
174 | DateTime_t GPSDateTime = {0,0,0,0,0,0,0, INVALID}; |
174 | DateTime_t GPSDateTime = {0,0,0,0,0,0,0, INVALID}; |
175 | 175 | ||
176 | #define UBX_TIMEOUT 500 // 500 ms |
176 | #define UBX_TIMEOUT 500 // 500 ms |
177 | u32 UBX_Timeout = 0; |
177 | u32 UBX_Timeout = 0; |
178 | 178 | ||
179 | //------------------------------------------------------------------------------------ |
179 | //------------------------------------------------------------------------------------ |
180 | // functions |
180 | // functions |
181 | 181 | ||
182 | u8 IsLeapYear(u16 year) |
182 | u8 IsLeapYear(u16 year) |
183 | { |
183 | { |
184 | if((year%400 == 0) || ( (year%4 == 0) && (year%100 != 0) ) ) return 1; |
184 | if((year%400 == 0) || ( (year%4 == 0) && (year%100 != 0) ) ) return 1; |
185 | else return 0; |
185 | else return 0; |
186 | } |
186 | } |
187 | /********************************************************/ |
187 | /********************************************************/ |
188 | /* Calculates the UTC Time from the GPS week and tow */ |
188 | /* Calculates the UTC Time from the GPS week and tow */ |
189 | /********************************************************/ |
189 | /********************************************************/ |
190 | void SetGPSTime(DateTime_t * pTimeStruct) |
190 | void SetGPSTime(DateTime_t * pTimeStruct) |
191 | { |
191 | { |
192 | u32 Days, Seconds, Week; |
192 | u32 Days, Seconds, Week; |
193 | u16 YearPart; |
193 | u16 YearPart; |
194 | u32 * MonthDayTab = 0; |
194 | u32 * MonthDayTab = 0; |
195 | u8 i; |
195 | u8 i; |
196 | 196 | ||
197 | 197 | ||
198 | // if GPS data show valid time data |
198 | // if GPS data show valid time data |
199 | if((UbxSol.Status != INVALID) && (UbxSol.Flags & FLAG_WKNSET) && (UbxSol.Flags & FLAG_TOWSET) ) |
199 | if((UbxSol.Status != INVALID) && (UbxSol.Flags & FLAG_WKNSET) && (UbxSol.Flags & FLAG_TOWSET) ) |
200 | { |
200 | { |
201 | Seconds = UbxSol.itow / 1000L; |
201 | Seconds = UbxSol.itow / 1000L; |
202 | Week = (u32)UbxSol.week; |
202 | Week = (u32)UbxSol.week; |
203 | // correct leap seconds since 1980 |
203 | // correct leap seconds since 1980 |
204 | if(Seconds < LEAP_SECONDS_FROM_1980) |
204 | if(Seconds < LEAP_SECONDS_FROM_1980) |
205 | { |
205 | { |
206 | Week--; |
206 | Week--; |
207 | Seconds = SECONDS_PER_WEEK - LEAP_SECONDS_FROM_1980 + Seconds; |
207 | Seconds = SECONDS_PER_WEEK - LEAP_SECONDS_FROM_1980 + Seconds; |
208 | } |
208 | } |
209 | else Seconds -= LEAP_SECONDS_FROM_1980; |
209 | else Seconds -= LEAP_SECONDS_FROM_1980; |
210 | 210 | ||
211 | Days = DAYS_FROM_JAN01YEAR0001_TO_JAN6_1980; |
211 | Days = DAYS_FROM_JAN01YEAR0001_TO_JAN6_1980; |
212 | Days += (Week * DAYS_PER_WEEK); |
212 | Days += (Week * DAYS_PER_WEEK); |
213 | Days += Seconds / SECONDS_PER_DAY; // seperate days from GPS seconds of week |
213 | Days += Seconds / SECONDS_PER_DAY; // seperate days from GPS seconds of week |
214 | 214 | ||
215 | pTimeStruct->Year = 1; |
215 | pTimeStruct->Year = 1; |
216 | YearPart = (u16)(Days / DAYS_PER_400YEARS); |
216 | YearPart = (u16)(Days / DAYS_PER_400YEARS); |
217 | pTimeStruct->Year += YearPart * 400; |
217 | pTimeStruct->Year += YearPart * 400; |
218 | Days = Days % DAYS_PER_400YEARS; |
218 | Days = Days % DAYS_PER_400YEARS; |
219 | YearPart = (u16)(Days / DAYS_PER_100YEARS); |
219 | YearPart = (u16)(Days / DAYS_PER_100YEARS); |
220 | pTimeStruct->Year += YearPart * 100; |
220 | pTimeStruct->Year += YearPart * 100; |
221 | Days = Days % DAYS_PER_100YEARS; |
221 | Days = Days % DAYS_PER_100YEARS; |
222 | YearPart = (u16)(Days / DAYS_PER_4YEARS); |
222 | YearPart = (u16)(Days / DAYS_PER_4YEARS); |
223 | pTimeStruct->Year += YearPart * 4; |
223 | pTimeStruct->Year += YearPart * 4; |
224 | Days = Days % DAYS_PER_4YEARS; |
224 | Days = Days % DAYS_PER_4YEARS; |
225 | if(Days < (3* DAYS_PER_YEAR)) YearPart = (u16)(Days / DAYS_PER_YEAR); |
225 | if(Days < (3* DAYS_PER_YEAR)) YearPart = (u16)(Days / DAYS_PER_YEAR); |
226 | else YearPart = 3; |
226 | else YearPart = 3; |
227 | pTimeStruct->Year += YearPart; |
227 | pTimeStruct->Year += YearPart; |
228 | // calculate remaining days of year |
228 | // calculate remaining days of year |
229 | Days -= (u32)(YearPart * DAYS_PER_YEAR); |
229 | Days -= (u32)(YearPart * DAYS_PER_YEAR); |
230 | Days += 1; |
230 | Days += 1; |
231 | // check if current year is a leap year |
231 | // check if current year is a leap year |
232 | if(IsLeapYear(pTimeStruct->Year)) MonthDayTab = (u32*)Leap; |
232 | if(IsLeapYear(pTimeStruct->Year)) MonthDayTab = (u32*)Leap; |
233 | else MonthDayTab = (u32*)Normal; |
233 | else MonthDayTab = (u32*)Normal; |
234 | // seperate month and day from days of year |
234 | // seperate month and day from days of year |
235 | for ( i = 0; i < 12; i++ ) |
235 | for ( i = 0; i < 12; i++ ) |
236 | { |
236 | { |
237 | if ( (MonthDayTab[i]< Days) && (Days <= MonthDayTab[i+1]) ) |
237 | if ( (MonthDayTab[i]< Days) && (Days <= MonthDayTab[i+1]) ) |
238 | { |
238 | { |
239 | pTimeStruct->Month = i+1; |
239 | pTimeStruct->Month = i+1; |
240 | pTimeStruct->Day = Days - MonthDayTab[i]; |
240 | pTimeStruct->Day = Days - MonthDayTab[i]; |
241 | i = 12; |
241 | i = 12; |
242 | } |
242 | } |
243 | } |
243 | } |
244 | Seconds = Seconds % SECONDS_PER_DAY; // remaining seconds of current day |
244 | Seconds = Seconds % SECONDS_PER_DAY; // remaining seconds of current day |
245 | pTimeStruct->Hour = (u8)(Seconds / SECONDS_PER_HOUR); |
245 | pTimeStruct->Hour = (u8)(Seconds / SECONDS_PER_HOUR); |
246 | Seconds = Seconds % SECONDS_PER_HOUR; // remaining seconds of current hour |
246 | Seconds = Seconds % SECONDS_PER_HOUR; // remaining seconds of current hour |
247 | pTimeStruct->Min = (u8)(Seconds / SECONDS_PER_MINUTE); |
247 | pTimeStruct->Min = (u8)(Seconds / SECONDS_PER_MINUTE); |
248 | Seconds = Seconds % SECONDS_PER_MINUTE; // remaining seconds of current minute |
248 | Seconds = Seconds % SECONDS_PER_MINUTE; // remaining seconds of current minute |
249 | pTimeStruct->Sec = (u8)(Seconds); |
249 | pTimeStruct->Sec = (u8)(Seconds); |
250 | pTimeStruct->mSec = (u16)(UbxSol.itow % 1000L); |
250 | pTimeStruct->mSec = (u16)(UbxSol.itow % 1000L); |
251 | pTimeStruct->Valid = 1; |
251 | pTimeStruct->Valid = 1; |
252 | } |
252 | } |
253 | else |
253 | else |
254 | { |
254 | { |
255 | pTimeStruct->Valid = 0; |
255 | pTimeStruct->Valid = 0; |
256 | } |
256 | } |
257 | } |
257 | } |
258 | 258 | ||
259 | 259 | ||
260 | 260 | ||
261 | /********************************************************/ |
261 | /********************************************************/ |
262 | /* Initialize UBX Parser */ |
262 | /* Initialize UBX Parser */ |
263 | /********************************************************/ |
263 | /********************************************************/ |
264 | void UBX_Init(void) |
264 | void UBX_Init(void) |
265 | { |
265 | { |
266 | // mark msg buffers invalid |
266 | // mark msg buffers invalid |
267 | UbxSol.Status = INVALID; |
267 | UbxSol.Status = INVALID; |
268 | UbxPosLlh.Status = INVALID; |
268 | UbxPosLlh.Status = INVALID; |
269 | UbxVelNed.Status = INVALID; |
269 | UbxVelNed.Status = INVALID; |
270 | UbxMsg.Status = INVALID; |
270 | UbxMsg.Status = INVALID; |
271 | GPSData.Status = INVALID; |
271 | GPSData.Status = INVALID; |
272 | 272 | ||
273 | UBX_Timeout = SetDelay(2 * UBX_Timeout); |
273 | UBX_Timeout = SetDelay(2 * UBX_Timeout); |
274 | } |
274 | } |
275 | 275 | ||
276 | /********************************************************/ |
276 | /********************************************************/ |
277 | /* Upate GPS data stcructure */ |
277 | /* Upate GPS data stcructure */ |
278 | /********************************************************/ |
278 | /********************************************************/ |
279 | void Update_GPSData(void) |
279 | void Update_GPSData(void) |
280 | { |
280 | { |
281 | static u32 last_itow = 0; |
281 | static u32 last_itow = 0; |
282 | 282 | ||
283 | // if a new set of ubx messages was collected |
283 | // if a new set of ubx messages was collected |
284 | if((UbxSol.Status == NEWDATA) && (UbxPosLlh.Status == NEWDATA) && (UbxVelNed.Status == NEWDATA)) |
284 | if((UbxSol.Status == NEWDATA) && (UbxPosLlh.Status == NEWDATA) && (UbxVelNed.Status == NEWDATA)) |
285 | { // and the itow is equal (same time base) |
285 | { // and the itow is equal (same time base) |
286 | if((UbxSol.itow == UbxPosLlh.itow) && (UbxPosLlh.itow == UbxVelNed.itow)) |
286 | if((UbxSol.itow == UbxPosLlh.itow) && (UbxPosLlh.itow == UbxVelNed.itow)) |
287 | { |
287 | { |
288 | UBX_Timeout = SetDelay(UBX_TIMEOUT); |
288 | UBX_Timeout = SetDelay(UBX_TIMEOUT); |
289 | DebugOut.Analog[9]++; |
289 | DebugOut.Analog[9]++; |
290 | // update GPS data only if the status is INVALID or PROCESSED |
290 | // update GPS data only if the status is INVALID or PROCESSED |
291 | if(GPSData.Status != NEWDATA) |
291 | if(GPSData.Status != NEWDATA) |
292 | { // wait for new data at all neccesary ubx messages |
292 | { // wait for new data at all neccesary ubx messages |
293 | GPSData.Status = INVALID; |
293 | GPSData.Status = INVALID; |
294 | // update message cycle time |
294 | // update message cycle time |
295 | GPSData.MsgCycleTime = (u16)(UbxSol.itow-last_itow); |
295 | GPSData.MsgCycleTime = (u16)(UbxSol.itow-last_itow); |
296 | last_itow = UbxSol.itow; // update last itow |
296 | last_itow = UbxSol.itow; // update last itow |
297 | // DebugOut.Analog[16] = GPSData.MsgCycleTime; |
297 | // DebugOut.Analog[16] = GPSData.MsgCycleTime; |
298 | // NAV SOL |
298 | // NAV SOL |
299 | GPSData.Flags = (GPSData.Flags & 0xf0) | (UbxSol.Flags & 0x0f); // we take only the lower bits |
299 | GPSData.Flags = (GPSData.Flags & 0xf0) | (UbxSol.Flags & 0x0f); // we take only the lower bits |
300 | GPSData.NumOfSats = UbxSol.numSV; |
300 | GPSData.NumOfSats = UbxSol.numSV; |
301 | GPSData.SatFix = UbxSol.GPSfix; |
301 | GPSData.SatFix = UbxSol.GPSfix; |
302 | GPSData.Position_Accuracy = UbxSol.PAcc; |
302 | GPSData.Position_Accuracy = UbxSol.PAcc; |
303 | GPSData.Speed_Accuracy = UbxSol.SAcc; |
303 | GPSData.Speed_Accuracy = UbxSol.SAcc; |
304 | SetGPSTime(&SystemTime); // update system time |
304 | SetGPSTime(&SystemTime); // update system time |
305 | // NAV POSLLH |
305 | // NAV POSLLH |
306 | GPSData.Position.Status = INVALID; |
306 | GPSData.Position.Status = INVALID; |
307 | GPSData.Position.Longitude = UbxPosLlh.LON; |
307 | GPSData.Position.Longitude = UbxPosLlh.LON; |
308 | GPSData.Position.Latitude = UbxPosLlh.LAT; |
308 | GPSData.Position.Latitude = UbxPosLlh.LAT; |
309 | GPSData.Position.Altitude = UbxPosLlh.HMSL; |
309 | GPSData.Position.Altitude = UbxPosLlh.HMSL; |
310 | GPSData.Position.Status = NEWDATA; |
310 | GPSData.Position.Status = NEWDATA; |
311 | // NAV VELNED |
311 | // NAV VELNED |
312 | GPSData.Speed_East = UbxVelNed.VEL_E; |
312 | GPSData.Speed_East = UbxVelNed.VEL_E; |
313 | GPSData.Speed_North = UbxVelNed.VEL_N; |
313 | GPSData.Speed_North = UbxVelNed.VEL_N; |
314 | GPSData.Speed_Top = -UbxVelNed.VEL_D; |
314 | GPSData.Speed_Top = -UbxVelNed.VEL_D; |
315 | GPSData.Speed_Ground = UbxVelNed.GSpeed; |
315 | GPSData.Speed_Ground = UbxVelNed.GSpeed; |
316 | GPSData.Heading = UbxVelNed.Heading; |
316 | GPSData.Heading = UbxVelNed.Heading; |
317 | 317 | ||
318 | GPSData.Status = NEWDATA; // new data available |
318 | GPSData.Status = NEWDATA; // new data available |
319 | } // EOF if(GPSData.Status != NEWDATA) |
319 | } // EOF if(GPSData.Status != NEWDATA) |
320 | // set state to collect new data |
320 | // set state to collect new data |
321 | UbxSol.Status = PROCESSED; // ready for new data |
321 | UbxSol.Status = PROCESSED; // ready for new data |
322 | UbxPosLlh.Status = PROCESSED; // ready for new data |
322 | UbxPosLlh.Status = PROCESSED; // ready for new data |
323 | UbxVelNed.Status = PROCESSED; // ready for new data |
323 | UbxVelNed.Status = PROCESSED; // ready for new data |
324 | } // EOF all itow are equal |
324 | } // EOF all itow are equal |
325 | } // EOF all ubx messages received |
325 | } // EOF all ubx messages received |
- | 326 | ||
- | 327 | ||
- | 328 | //GPSData.Position.Longitude = 1517409123L; // Hamilton, Australia |
|
- | 329 | //GPSData.Position.Latitude = -329294773L; // Hamilton, Australia |
|
- | 330 | //GPSData.Position.Longitude =-1556010020L; // Alaska |
|
- | 331 | //GPSData.Position.Latitude = 629581270L; // Alaska |
|
- | 332 | //GPSData.Position.Longitude =-584343419L; // Buenos aires |
|
- | 333 | //GPSData.Position.Latitude = -345464421L; // Buenos aires |
|
- | 334 | //GPSData.Position.Longitude =1683362691L; // Neuseeland |
|
- | 335 | //GPSData.Position.Latitude = -465945926L; // Neuseeland |
|
326 | } |
336 | } |
327 | 337 | ||
328 | 338 | ||
329 | /********************************************************/ |
339 | /********************************************************/ |
330 | /* UBX Parser */ |
340 | /* UBX Parser */ |
331 | /********************************************************/ |
341 | /********************************************************/ |
332 | void UBX_RxParser(u8 c) |
342 | void UBX_RxParser(u8 c) |
333 | { |
343 | { |
334 | static ubxState_t ubxState = UBXSTATE_IDLE; |
344 | static ubxState_t ubxState = UBXSTATE_IDLE; |
335 | static ubxmsghdr_t RxHdr; |
345 | static ubxmsghdr_t RxHdr; |
336 | static u8 RxData[UBX_MSG_DATA_SIZE]; |
346 | static u8 RxData[UBX_MSG_DATA_SIZE]; |
337 | static u16 RxBytes = 0; |
347 | static u16 RxBytes = 0; |
338 | static u8 cka, ckb; |
348 | static u8 cka, ckb; |
339 | 349 | ||
340 | 350 | ||
341 | //state machine |
351 | //state machine |
342 | switch (ubxState) // ubx message parser |
352 | switch (ubxState) // ubx message parser |
343 | { |
353 | { |
344 | case UBXSTATE_IDLE: // check 1st sync byte |
354 | case UBXSTATE_IDLE: // check 1st sync byte |
345 | if (c == UBX_SYNC1_CHAR) ubxState = UBXSTATE_SYNC1; |
355 | if (c == UBX_SYNC1_CHAR) ubxState = UBXSTATE_SYNC1; |
346 | else ubxState = UBXSTATE_IDLE; // out of synchronization |
356 | else ubxState = UBXSTATE_IDLE; // out of synchronization |
347 | break; |
357 | break; |
348 | 358 | ||
349 | case UBXSTATE_SYNC1: // check 2nd sync byte |
359 | case UBXSTATE_SYNC1: // check 2nd sync byte |
350 | if (c == UBX_SYNC2_CHAR) ubxState = UBXSTATE_SYNC2; |
360 | if (c == UBX_SYNC2_CHAR) ubxState = UBXSTATE_SYNC2; |
351 | else ubxState = UBXSTATE_IDLE; // out of synchronization |
361 | else ubxState = UBXSTATE_IDLE; // out of synchronization |
352 | break; |
362 | break; |
353 | 363 | ||
354 | case UBXSTATE_SYNC2: // check msg class to be NAV |
364 | case UBXSTATE_SYNC2: // check msg class to be NAV |
355 | RxHdr.Class = c; |
365 | RxHdr.Class = c; |
356 | ubxState = UBXSTATE_CLASS; |
366 | ubxState = UBXSTATE_CLASS; |
357 | break; |
367 | break; |
358 | 368 | ||
359 | case UBXSTATE_CLASS: // check message identifier |
369 | case UBXSTATE_CLASS: // check message identifier |
360 | RxHdr.Id = c; |
370 | RxHdr.Id = c; |
361 | ubxState = UBXSTATE_LEN1; |
371 | ubxState = UBXSTATE_LEN1; |
362 | cka = RxHdr.Class + RxHdr.Id; |
372 | cka = RxHdr.Class + RxHdr.Id; |
363 | ckb = RxHdr.Class + cka; |
373 | ckb = RxHdr.Class + cka; |
364 | break; |
374 | break; |
365 | 375 | ||
366 | case UBXSTATE_LEN1: // 1st message length byte |
376 | case UBXSTATE_LEN1: // 1st message length byte |
367 | RxHdr.Length = (u16)c; // lowbyte first |
377 | RxHdr.Length = (u16)c; // lowbyte first |
368 | cka += c; |
378 | cka += c; |
369 | ckb += cka; |
379 | ckb += cka; |
370 | ubxState = UBXSTATE_LEN2; |
380 | ubxState = UBXSTATE_LEN2; |
371 | break; |
381 | break; |
372 | 382 | ||
373 | case UBXSTATE_LEN2: // 2nd message length byte |
383 | case UBXSTATE_LEN2: // 2nd message length byte |
374 | RxHdr.Length += ((u16)c)<<8; // high byte last |
384 | RxHdr.Length += ((u16)c)<<8; // high byte last |
375 | if (RxHdr.Length >= UBX_MSG_DATA_SIZE) |
385 | if (RxHdr.Length >= UBX_MSG_DATA_SIZE) |
376 | { |
386 | { |
377 | ubxState = UBXSTATE_IDLE; |
387 | ubxState = UBXSTATE_IDLE; |
378 | } |
388 | } |
379 | else |
389 | else |
380 | { |
390 | { |
381 | cka += c; |
391 | cka += c; |
382 | ckb += cka; |
392 | ckb += cka; |
383 | RxBytes = 0; // reset data byte counter |
393 | RxBytes = 0; // reset data byte counter |
384 | ubxState = UBXSTATE_DATA; |
394 | ubxState = UBXSTATE_DATA; |
385 | } |
395 | } |
386 | break; |
396 | break; |
387 | 397 | ||
388 | case UBXSTATE_DATA: // collecting data |
398 | case UBXSTATE_DATA: // collecting data |
389 | if (RxBytes < UBX_MSG_DATA_SIZE) |
399 | if (RxBytes < UBX_MSG_DATA_SIZE) |
390 | { |
400 | { |
391 | RxData[RxBytes++] = c; // copy curent data byte if any space is left |
401 | RxData[RxBytes++] = c; // copy curent data byte if any space is left |
392 | cka += c; |
402 | cka += c; |
393 | ckb += cka; |
403 | ckb += cka; |
394 | if (RxBytes >= RxHdr.Length) ubxState = UBXSTATE_CKA; // switch to next state if all data have been received |
404 | if (RxBytes >= RxHdr.Length) ubxState = UBXSTATE_CKA; // switch to next state if all data have been received |
395 | } |
405 | } |
396 | else // rx buffer overrun |
406 | else // rx buffer overrun |
397 | { |
407 | { |
398 | ubxState = UBXSTATE_IDLE; |
408 | ubxState = UBXSTATE_IDLE; |
399 | } |
409 | } |
400 | break; |
410 | break; |
401 | 411 | ||
402 | case UBXSTATE_CKA: |
412 | case UBXSTATE_CKA: |
403 | if (c == cka) ubxState = UBXSTATE_CKB; |
413 | if (c == cka) ubxState = UBXSTATE_CKB; |
404 | else |
414 | else |
405 | { |
415 | { |
406 | ubxState = UBXSTATE_IDLE; |
416 | ubxState = UBXSTATE_IDLE; |
407 | } |
417 | } |
408 | break; |
418 | break; |
409 | 419 | ||
410 | case UBXSTATE_CKB: |
420 | case UBXSTATE_CKB: |
411 | if (c == ckb) |
421 | if (c == ckb) |
412 | { // checksum is ok |
422 | { // checksum is ok |
413 | 423 | ||
414 | switch(RxHdr.Class) |
424 | switch(RxHdr.Class) |
415 | { |
425 | { |
416 | case UBX_CLASS_NAV: |
426 | case UBX_CLASS_NAV: |
417 | switch(RxHdr.Id) |
427 | switch(RxHdr.Id) |
418 | { |
428 | { |
419 | case UBX_ID_POSLLH: // geodetic position |
429 | case UBX_ID_POSLLH: // geodetic position |
420 | memcpy((u8*)&UbxPosLlh, RxData, RxHdr.Length); |
430 | memcpy((u8*)&UbxPosLlh, RxData, RxHdr.Length); |
421 | UbxPosLlh.Status = NEWDATA; |
431 | UbxPosLlh.Status = NEWDATA; |
422 | break; |
432 | break; |
423 | 433 | ||
424 | case UBX_ID_VELNED: // velocity vector in tangent plane |
434 | case UBX_ID_VELNED: // velocity vector in tangent plane |
425 | memcpy((u8*)&UbxVelNed, RxData, RxHdr.Length); |
435 | memcpy((u8*)&UbxVelNed, RxData, RxHdr.Length); |
426 | UbxVelNed.Status = NEWDATA; |
436 | UbxVelNed.Status = NEWDATA; |
427 | break; |
437 | break; |
428 | 438 | ||
429 | case UBX_ID_SOL: // navigation solution |
439 | case UBX_ID_SOL: // navigation solution |
430 | memcpy((u8*)&UbxSol, RxData, RxHdr.Length); |
440 | memcpy((u8*)&UbxSol, RxData, RxHdr.Length); |
431 | UbxSol.Status = NEWDATA; |
441 | UbxSol.Status = NEWDATA; |
432 | break; |
442 | break; |
433 | 443 | ||
434 | default: |
444 | default: |
435 | break; |
445 | break; |
436 | } // EOF switch(Id) |
446 | } // EOF switch(Id) |
437 | Update_GPSData(); |
447 | Update_GPSData(); |
438 | break; |
448 | break; |
439 | 449 | ||
440 | default: |
450 | default: |
441 | break; |
451 | break; |
442 | } // EOF switch(class) |
452 | } // EOF switch(class) |
443 | 453 | ||
444 | // check generic msg filter |
454 | // check generic msg filter |
445 | if(UbxMsg.Status != NEWDATA) |
455 | if(UbxMsg.Status != NEWDATA) |
446 | { // msg buffer is free |
456 | { // msg buffer is free |
447 | if(((UbxMsg.Hdr.Class&UbxMsg.ClassMask) == (RxHdr.Class&UbxMsg.ClassMask)) && ((UbxMsg.Hdr.Id&UbxMsg.IdMask) == (RxHdr.Id&UbxMsg.IdMask))) |
457 | if(((UbxMsg.Hdr.Class&UbxMsg.ClassMask) == (RxHdr.Class&UbxMsg.ClassMask)) && ((UbxMsg.Hdr.Id&UbxMsg.IdMask) == (RxHdr.Id&UbxMsg.IdMask))) |
448 | { // msg matches to the filter criteria |
458 | { // msg matches to the filter criteria |
449 | UbxMsg.Status = INVALID; |
459 | UbxMsg.Status = INVALID; |
450 | UbxMsg.Hdr.Class = RxHdr.Class; |
460 | UbxMsg.Hdr.Class = RxHdr.Class; |
451 | UbxMsg.Hdr.Id = RxHdr.Id; |
461 | UbxMsg.Hdr.Id = RxHdr.Id; |
452 | UbxMsg.Hdr.Length = RxHdr.Length; |
462 | UbxMsg.Hdr.Length = RxHdr.Length; |
453 | if(UbxMsg.Hdr.Length <= UBX_MSG_DATA_SIZE) |
463 | if(UbxMsg.Hdr.Length <= UBX_MSG_DATA_SIZE) |
454 | { // copy data block |
464 | { // copy data block |
455 | memcpy(UbxMsg.Data, RxData, RxHdr.Length); |
465 | memcpy(UbxMsg.Data, RxData, RxHdr.Length); |
456 | UbxMsg.Status = NEWDATA; |
466 | UbxMsg.Status = NEWDATA; |
457 | } |
467 | } |
458 | } // EOF filter matches |
468 | } // EOF filter matches |
459 | } // EOF != INVALID |
469 | } // EOF != INVALID |
460 | }// EOF crc ok |
470 | }// EOF crc ok |
461 | ubxState = UBXSTATE_IDLE; // ready to parse new data |
471 | ubxState = UBXSTATE_IDLE; // ready to parse new data |
462 | break; |
472 | break; |
463 | 473 | ||
464 | default: // unknown ubx state |
474 | default: // unknown ubx state |
465 | ubxState = UBXSTATE_IDLE; |
475 | ubxState = UBXSTATE_IDLE; |
466 | break; |
476 | break; |
467 | 477 | ||
468 | } |
478 | } |
469 | } |
479 | } |
470 | 480 | ||
471 | u8 UBX_CreateMsg(Buffer_t* pBuff, u8* pData, u16 Len) |
481 | u8 UBX_CreateMsg(Buffer_t* pBuff, u8* pData, u16 Len) |
472 | { |
482 | { |
473 | u16 i; |
483 | u16 i; |
474 | u8 cka = 0, ckb = 0; |
484 | u8 cka = 0, ckb = 0; |
475 | // check if buffer is available |
485 | // check if buffer is available |
476 | if(pBuff->Locked == TRUE) return(0); |
486 | if(pBuff->Locked == TRUE) return(0); |
477 | // check if buffer size is sufficient |
487 | // check if buffer size is sufficient |
478 | if(pBuff->Size < 8 + Len) return(0); |
488 | if(pBuff->Size < 8 + Len) return(0); |
479 | // lock the buffer |
489 | // lock the buffer |
480 | pBuff->Locked = TRUE; |
490 | pBuff->Locked = TRUE; |
481 | // start at begin |
491 | // start at begin |
482 | pBuff->Position = 0; |
492 | pBuff->Position = 0; |
483 | pBuff->pData[pBuff->Position++] = UBX_SYNC1_CHAR; |
493 | pBuff->pData[pBuff->Position++] = UBX_SYNC1_CHAR; |
484 | pBuff->pData[pBuff->Position++] = UBX_SYNC2_CHAR; |
494 | pBuff->pData[pBuff->Position++] = UBX_SYNC2_CHAR; |
485 | for(i=0;i<Len;i++) |
495 | for(i=0;i<Len;i++) |
486 | { |
496 | { |
487 | pBuff->pData[pBuff->Position++] = pData[i]; |
497 | pBuff->pData[pBuff->Position++] = pData[i]; |
488 | } |
498 | } |
489 | // calculate checksum |
499 | // calculate checksum |
490 | for(i=2;i<pBuff->Position;i++) |
500 | for(i=2;i<pBuff->Position;i++) |
491 | { |
501 | { |
492 | cka += pBuff->pData[i]; |
502 | cka += pBuff->pData[i]; |
493 | ckb += cka; |
503 | ckb += cka; |
494 | } |
504 | } |
495 | pBuff->pData[pBuff->Position++] = cka; |
505 | pBuff->pData[pBuff->Position++] = cka; |
496 | pBuff->pData[pBuff->Position++] = ckb; |
506 | pBuff->pData[pBuff->Position++] = ckb; |
497 | pBuff->DataBytes = pBuff->Position; |
507 | pBuff->DataBytes = pBuff->Position; |
498 | pBuff->Position = 0; // reset buffer position for transmision |
508 | pBuff->Position = 0; // reset buffer position for transmision |
499 | return(1); |
509 | return(1); |
500 | } |
510 | } |
501 | /* |
511 | /* |
502 | switch(ubxclass) |
512 | switch(ubxclass) |
503 | { |
513 | { |
504 | case UBX_CLASS_NAV: |
514 | case UBX_CLASS_NAV: |
505 | switch(ubxid) |
515 | switch(ubxid) |
506 | { |
516 | { |
507 | case UBX_ID_POSLLH: // geodetic position |
517 | case UBX_ID_POSLLH: // geodetic position |
508 | ubxSp = (u8 *)&UbxPosLlh; // data start pointer |
518 | ubxSp = (u8 *)&UbxPosLlh; // data start pointer |
509 | ubxEp = (u8 *)(&UbxPosLlh + 1); // data end pointer |
519 | ubxEp = (u8 *)(&UbxPosLlh + 1); // data end pointer |
510 | ubxStP = (u8 *)&UbxPosLlh.Status; // status pointer |
520 | ubxStP = (u8 *)&UbxPosLlh.Status; // status pointer |
511 | break; |
521 | break; |
512 | |
522 | |
513 | case UBX_ID_SOL: // navigation solution |
523 | case UBX_ID_SOL: // navigation solution |
514 | ubxSp = (u8 *)&UbxSol; // data start pointer |
524 | ubxSp = (u8 *)&UbxSol; // data start pointer |
515 | ubxEp = (u8 *)(&UbxSol + 1); // data end pointer |
525 | ubxEp = (u8 *)(&UbxSol + 1); // data end pointer |
516 | ubxStP = (u8 *)&UbxSol.Status; // status pointer |
526 | ubxStP = (u8 *)&UbxSol.Status; // status pointer |
517 | break; |
527 | break; |
518 | |
528 | |
519 | case UBX_ID_VELNED: // velocity vector in tangent plane |
529 | case UBX_ID_VELNED: // velocity vector in tangent plane |
520 | ubxSp = (u8 *)&UbxVelNed; // data start pointer |
530 | ubxSp = (u8 *)&UbxVelNed; // data start pointer |
521 | ubxEp = (u8 *)(&UbxVelNed + 1); // data end pointer |
531 | ubxEp = (u8 *)(&UbxVelNed + 1); // data end pointer |
522 | ubxStP = (u8 *)&UbxVelNed.Status; // status pointer |
532 | ubxStP = (u8 *)&UbxVelNed.Status; // status pointer |
523 | break; |
533 | break; |
524 | |
534 | |
525 | default: // unsupported identifier |
535 | default: // unsupported identifier |
526 | ubxState = UBXSTATE_IDLE; |
536 | ubxState = UBXSTATE_IDLE; |
527 | return; |
537 | return; |
528 | } |
538 | } |
529 | break; |
539 | break; |
530 | 540 | ||
531 | default: // other classes |
541 | default: // other classes |
532 | if(UbxMsg.Status == NEWDATA) ubxState = UBXSTATE_IDLE; |
542 | if(UbxMsg.Status == NEWDATA) ubxState = UBXSTATE_IDLE; |
533 | else if(((UbxMsg.Hdr.Class&UbxMsg.ClassMask) == (ubxclass&UbxMsg.ClassMask)) && ((UbxMsg.Hdr.Id&UbxMsg.IdMask) == (ubxid&UbxMsg.IdMask))) |
543 | else if(((UbxMsg.Hdr.Class&UbxMsg.ClassMask) == (ubxclass&UbxMsg.ClassMask)) && ((UbxMsg.Hdr.Id&UbxMsg.IdMask) == (ubxid&UbxMsg.IdMask))) |
534 | { // buffer is free and message matches to filter criteria |
544 | { // buffer is free and message matches to filter criteria |
535 | UbxMsg.Status = INVALID; |
545 | UbxMsg.Status = INVALID; |
536 | UbxMsg.Hdr.Class = ubxclass; |
546 | UbxMsg.Hdr.Class = ubxclass; |
537 | UbxMsg.Hdr.Id = ubxid; |
547 | UbxMsg.Hdr.Id = ubxid; |
538 | UbxMsg.Hdr.Length = msglen; |
548 | UbxMsg.Hdr.Length = msglen; |
539 | ubxSp = (u8 *)&(UbxMsg.Data); // data start pointer |
549 | ubxSp = (u8 *)&(UbxMsg.Data); // data start pointer |
540 | ubxEp = (u8 *)(&UbxMsg + 1); // data end pointer |
550 | ubxEp = (u8 *)(&UbxMsg + 1); // data end pointer |
541 | ubxStP = (u8 *)&UbxMsg.Status; // status pointer |
551 | ubxStP = (u8 *)&UbxMsg.Status; // status pointer |
542 | } |
552 | } |
543 | else ubxState = UBXSTATE_IDLE; |
553 | else ubxState = UBXSTATE_IDLE; |
544 | break; |
554 | break; |
545 | } |
555 | } |
546 | */ |
556 | */ |
547 | 557 | ||
548 | 558 |