// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*- // // DIYDrones Custom Mediatek GPS driver for ArduPilot and ArduPilotMega. // Code by Michael Smith, Jordi Munoz and Jose Julio, Craig Elder, DIYDrones.com // // This library is free software; you can redistribute it and / or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License, or (at your option) any later version. // // GPS configuration : Custom protocol per "DIYDrones Custom Binary Sentence Specification V1.6, v1.7, v1.8, v1.9" // // Note that this driver supports both the 1.6 and 1.9 protocol varients // #include #include "AP_GPS_MTK19.h" #include // Public Methods ////////////////////////////////////////////////////////////// void AP_GPS_MTK19::init(AP_HAL::UARTDriver *s, enum GPS_Engine_Setting nav_setting) { _port = s; _port->flush(); // initialize serial port for binary protocol use // XXX should assume binary, let GPS_AUTO handle dynamic config? _port->print(MTK_SET_BINARY); // set 5Hz update rate _port->print(MTK_OUTPUT_5HZ); // set SBAS on _port->print(SBAS_ON); // set WAAS on _port->print(WAAS_ON); // Set Nav Threshold to 0 m/s _port->print(MTK_NAVTHRES_OFF); // set initial epoch code _epoch = TIME_OF_DAY; _time_offset = 0; _offset_calculated = false; } // Process bytes available from the stream // // The stream is assumed to contain only our custom message. If it // contains other messages, and those messages contain the preamble bytes, // it is possible for this code to become de-synchronised. Without // buffering the entire message and re-processing it from the top, // this is unavoidable. // // The lack of a standard header length field makes it impossible to skip // unrecognised messages. // bool AP_GPS_MTK19::read(void) { uint8_t data; int16_t numc; bool parsed = false; numc = _port->available(); for (int16_t i = 0; i < numc; i++) { // Process bytes received // read the next byte data = _port->read(); restart: switch(_step) { // Message preamble, class, ID detection // // If we fail to match any of the expected bytes, we // reset the state machine and re-consider the failed // byte as the first byte of the preamble. This // improves our chances of recovering from a mismatch // and makes it less likely that we will be fooled by // the preamble appearing as data in some other message. // case 0: if (data == PREAMBLE1_V16) { _mtk_revision = MTK_GPS_REVISION_V16; _step++; } else if (data == PREAMBLE1_V19) { _mtk_revision = MTK_GPS_REVISION_V19; _step++; } break; case 1: if (data == PREAMBLE2) { _step++; } else { _step = 0; goto restart; } break; case 2: if (sizeof(_buffer) == data) { _step++; _ck_b = _ck_a = data; // reset the checksum accumulators _payload_counter = 0; } else { _step = 0; // reset and wait for a message of the right class goto restart; } break; // Receive message data // case 3: _buffer.bytes[_payload_counter++] = data; _ck_b += (_ck_a += data); if (_payload_counter == sizeof(_buffer)) { _step++; } break; // Checksum and message processing // case 4: _step++; if (_ck_a != data) { _step = 0; goto restart; } break; case 5: _step = 0; if (_ck_b != data) { goto restart; } // parse fix if (_buffer.msg.fix_type == FIX_3D || _buffer.msg.fix_type == FIX_3D_SBAS) { fix = GPS::FIX_3D; }else if (_buffer.msg.fix_type == FIX_2D || _buffer.msg.fix_type == FIX_2D_SBAS) { fix = GPS::FIX_2D; }else{ fix = GPS::FIX_NONE; } if (_mtk_revision == MTK_GPS_REVISION_V16) { latitude = _buffer.msg.latitude * 10; // V16, V17,V18 doc says *10e7 but device says otherwise longitude = _buffer.msg.longitude * 10; // V16, V17,V18 doc says *10e7 but device says otherwise } else { latitude = _buffer.msg.latitude; longitude = _buffer.msg.longitude; } altitude = _buffer.msg.altitude; ground_speed = _buffer.msg.ground_speed; ground_course = _buffer.msg.ground_course; num_sats = _buffer.msg.satellites; hdop = _buffer.msg.hdop; date = _buffer.msg.utc_date; // time from gps is UTC, but convert here to msToD int32_t time_utc = _buffer.msg.utc_time; int32_t temp = (time_utc/10000000); time_utc -= temp*10000000; time = temp * 3600000; temp = (time_utc/100000); time_utc -= temp*100000; time += temp * 60000 + time_utc; parsed = true; #ifdef FAKE_GPS_LOCK_TIME if (millis() > FAKE_GPS_LOCK_TIME*1000) { fix = true; latitude = -35000000UL; longitude = 149000000UL; altitude = 584; } #endif } } return parsed; } /* detect a MTK16 or MTK19 GPS */ bool AP_GPS_MTK19::_detect(uint8_t data) { static uint8_t payload_counter; static uint8_t step; static uint8_t ck_a, ck_b; restart: switch (step) { case 0: ck_b = ck_a = payload_counter = 0; if (data == PREAMBLE1_V16 || data == PREAMBLE1_V19) { step++; } break; case 1: if (PREAMBLE2 == data) { step++; } else { step = 0; goto restart; } break; case 2: if (data == sizeof(struct diyd_mtk_msg)) { step++; ck_b = ck_a = data; } else { step = 0; goto restart; } break; case 3: ck_b += (ck_a += data); if (++payload_counter == sizeof(struct diyd_mtk_msg)) step++; break; case 4: step++; if (ck_a != data) { step = 0; goto restart; } break; case 5: step = 0; if (ck_b != data) { goto restart; } return true; } return false; }