/* This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ // Novatel/Tersus/ComNav GPS driver for ArduPilot. // Code by Michael Oborne // Derived from http://www.novatel.com/assets/Documents/Manuals/om-20000129.pdf #include "AP_GPS.h" #include "AP_GPS_NOVA.h" #include #if AP_GPS_NOVA_ENABLED extern const AP_HAL::HAL& hal; #define NOVA_DEBUGGING 0 #if NOVA_DEBUGGING #include # define Debug(fmt, args ...) \ do { \ printf("%s:%d: " fmt "\n", \ __FUNCTION__, __LINE__, \ ## args); \ hal.scheduler->delay(1); \ } while(0) #else # define Debug(fmt, args ...) #endif AP_GPS_NOVA::AP_GPS_NOVA(AP_GPS &_gps, AP_GPS::GPS_State &_state, AP_HAL::UARTDriver *_port) : AP_GPS_Backend(_gps, _state, _port) { nova_msg.nova_state = nova_msg_parser::PREAMBLE1; nova_msg.header.data[0] = NOVA_PREAMBLE1; nova_msg.header.data[1] = NOVA_PREAMBLE2; nova_msg.header.data[2] = NOVA_PREAMBLE3; if (gps._auto_config != AP_GPS::GPS_AUTO_CONFIG_DISABLE) { const char *init_str = _initialisation_blob[0]; const char *init_str1 = _initialisation_blob[1]; port->write((const uint8_t*)init_str, strlen(init_str)); port->write((const uint8_t*)init_str1, strlen(init_str1)); } } const char* const AP_GPS_NOVA::_initialisation_blob[4] { "\r\n\r\nunlogall\r\n", // cleanup enviroment "log bestposb ontime 0.2 0 nohold\r\n", "log bestvelb ontime 0.2 0 nohold\r\n", "log psrdopb ontime 0.2 0 nohold\r\n", }; // Process all bytes available from the stream // bool AP_GPS_NOVA::read(void) { if (gps._auto_config != AP_GPS::GPS_AUTO_CONFIG_DISABLE) { const uint32_t now = AP_HAL::millis(); if (_init_blob_index < (sizeof(_initialisation_blob) / sizeof(_initialisation_blob[0]))) { const char *init_str = _initialisation_blob[_init_blob_index]; if (now > _init_blob_time) { port->write((const uint8_t*)init_str, strlen(init_str)); _init_blob_time = now + 200; _init_blob_index++; } } } bool ret = false; for (uint16_t i=0; i<8192; i++) { uint8_t temp; if (!port->read(temp)) { break; } #if AP_GPS_DEBUG_LOGGING_ENABLED log_data(&temp, 1); #endif ret |= parse(temp); } return ret; } bool AP_GPS_NOVA::parse(uint8_t temp) { switch (nova_msg.nova_state) { default: case nova_msg_parser::PREAMBLE1: if (temp == NOVA_PREAMBLE1) { nova_msg.nova_state = nova_msg_parser::PREAMBLE2; } nova_msg.read = 0; break; case nova_msg_parser::PREAMBLE2: if (temp == NOVA_PREAMBLE2) { nova_msg.nova_state = nova_msg_parser::PREAMBLE3; } else { nova_msg.nova_state = nova_msg_parser::PREAMBLE1; } break; case nova_msg_parser::PREAMBLE3: if (temp == NOVA_PREAMBLE3) { nova_msg.nova_state = nova_msg_parser::HEADERLENGTH; } else { nova_msg.nova_state = nova_msg_parser::PREAMBLE1; } break; case nova_msg_parser::HEADERLENGTH: Debug("NOVA HEADERLENGTH\n"); nova_msg.header.data[3] = temp; nova_msg.header.nova_headeru.headerlength = temp; nova_msg.nova_state = nova_msg_parser::HEADERDATA; nova_msg.read = 4; break; case nova_msg_parser::HEADERDATA: if (nova_msg.read >= sizeof(nova_msg.header.data)) { Debug("parse header overflow length=%u\n", (unsigned)nova_msg.read); nova_msg.nova_state = nova_msg_parser::PREAMBLE1; break; } nova_msg.header.data[nova_msg.read] = temp; nova_msg.read++; if (nova_msg.read >= nova_msg.header.nova_headeru.headerlength) { nova_msg.nova_state = nova_msg_parser::DATA; } break; case nova_msg_parser::DATA: if (nova_msg.read >= sizeof(nova_msg.data)) { Debug("parse data overflow length=%u msglength=%u\n", (unsigned)nova_msg.read,nova_msg.header.nova_headeru.messagelength); nova_msg.nova_state = nova_msg_parser::PREAMBLE1; break; } nova_msg.data.bytes[nova_msg.read - nova_msg.header.nova_headeru.headerlength] = temp; nova_msg.read++; if (nova_msg.read >= (nova_msg.header.nova_headeru.messagelength + nova_msg.header.nova_headeru.headerlength)) { Debug("NOVA DATA exit\n"); nova_msg.nova_state = nova_msg_parser::CRC1; } break; case nova_msg_parser::CRC1: nova_msg.crc = (uint32_t) (temp << 0); nova_msg.nova_state = nova_msg_parser::CRC2; break; case nova_msg_parser::CRC2: nova_msg.crc += (uint32_t) (temp << 8); nova_msg.nova_state = nova_msg_parser::CRC3; break; case nova_msg_parser::CRC3: nova_msg.crc += (uint32_t) (temp << 16); nova_msg.nova_state = nova_msg_parser::CRC4; break; case nova_msg_parser::CRC4: nova_msg.crc += (uint32_t) (temp << 24); nova_msg.nova_state = nova_msg_parser::PREAMBLE1; uint32_t crc = CalculateBlockCRC32((uint32_t)nova_msg.header.nova_headeru.headerlength, (uint8_t *)&nova_msg.header.data, (uint32_t)0); crc = CalculateBlockCRC32((uint32_t)nova_msg.header.nova_headeru.messagelength, (uint8_t *)&nova_msg.data, crc); if (nova_msg.crc == crc) { return process_message(); } else { Debug("crc failed"); crc_error_counter++; } break; } return false; } bool AP_GPS_NOVA::process_message(void) { const uint16_t messageid = nova_msg.header.nova_headeru.messageid; Debug("NOVA process_message messid=%u\n",messageid); check_new_itow(nova_msg.header.nova_headeru.tow, nova_msg.header.nova_headeru.messagelength + nova_msg.header.nova_headeru.headerlength); if (messageid == 42) // bestpos { const bestpos &bestposu = nova_msg.data.bestposu; state.time_week = nova_msg.header.nova_headeru.week; state.time_week_ms = (uint32_t) nova_msg.header.nova_headeru.tow; state.last_gps_time_ms = AP_HAL::millis(); state.location.lat = (int32_t) (bestposu.lat * (double)1e7); state.location.lng = (int32_t) (bestposu.lng * (double)1e7); state.have_undulation = true; state.undulation = bestposu.undulation; set_alt_amsl_cm(state, bestposu.hgt * 100); state.num_sats = bestposu.svsused; state.horizontal_accuracy = norm(bestposu.latsdev, bestposu.lngsdev); state.vertical_accuracy = (float) bestposu.hgtsdev; state.have_horizontal_accuracy = true; state.have_vertical_accuracy = true; state.rtk_age_ms = bestposu.diffage * 1000; state.rtk_num_sats = bestposu.svsused; if (bestposu.solstat == 0) // have a solution { switch (bestposu.postype) { case 16: state.status = AP_GPS::GPS_OK_FIX_3D; break; case 17: // psrdiff case 18: // waas case 20: // omnistar case 68: // ppp_converg case 69: // ppp state.status = AP_GPS::GPS_OK_FIX_3D_DGPS; break; case 32: // l1 float case 33: // iono float case 34: // narrow float state.status = AP_GPS::GPS_OK_FIX_3D_RTK_FLOAT; break; case 48: // l1 int case 50: // narrow int state.status = AP_GPS::GPS_OK_FIX_3D_RTK_FIXED; break; case 0: // NONE case 1: // FIXEDPOS case 2: // FIXEDHEIGHT default: state.status = AP_GPS::NO_FIX; break; } } else { state.status = AP_GPS::NO_FIX; } _new_position = true; } if (messageid == 99) // bestvel { const bestvel &bestvelu = nova_msg.data.bestvelu; state.ground_speed = (float) bestvelu.horspd; state.ground_course = (float) bestvelu.trkgnd; fill_3d_velocity(); state.velocity.z = -(float) bestvelu.vertspd; state.have_vertical_velocity = true; _last_vel_time = (uint32_t) nova_msg.header.nova_headeru.tow; _new_speed = true; } if (messageid == 174) // psrdop { const psrdop &psrdopu = nova_msg.data.psrdopu; state.hdop = (uint16_t) (psrdopu.hdop*100); state.vdop = (uint16_t) (psrdopu.htdop*100); return false; } // ensure out position and velocity stay insync if (_new_position && _new_speed && _last_vel_time == state.time_week_ms) { _new_speed = _new_position = false; return true; } return false; } #define CRC32_POLYNOMIAL 0xEDB88320L uint32_t AP_GPS_NOVA::CRC32Value(uint32_t icrc) { int i; uint32_t crc = icrc; for ( i = 8 ; i > 0; i-- ) { if ( crc & 1 ) crc = ( crc >> 1 ) ^ CRC32_POLYNOMIAL; else crc >>= 1; } return crc; } uint32_t AP_GPS_NOVA::CalculateBlockCRC32(uint32_t length, uint8_t *buffer, uint32_t crc) { while ( length-- != 0 ) { crc = ((crc >> 8) & 0x00FFFFFFL) ^ (CRC32Value(((uint32_t) crc ^ *buffer++) & 0xff)); } return( crc ); } #endif