#include "MAVLinkDecoder.h" #include "UASManager.h" MAVLinkDecoder::MAVLinkDecoder(MAVLinkProtocol* protocol, QObject *parent) : QObject(parent) { mavlink_message_info_t msg[256] = MAVLINK_MESSAGE_INFO; memcpy(messageInfo, msg, sizeof(mavlink_message_info_t)*256); memset(receivedMessages, 0, sizeof(mavlink_message_t)*256); for (unsigned int i = 0; i<255;++i) { componentID[i] = -1; componentMulti[i] = false; onboardTimeOffset[i] = 0; onboardToGCSUnixTimeOffsetAndDelay[i] = 0; firstOnboardTime[i] = 0; } // Fill filter messageFilter.insert(MAVLINK_MSG_ID_HEARTBEAT, false); messageFilter.insert(MAVLINK_MSG_ID_SYS_STATUS, false); messageFilter.insert(MAVLINK_MSG_ID_STATUSTEXT, false); messageFilter.insert(MAVLINK_MSG_ID_COMMAND_LONG, false); messageFilter.insert(MAVLINK_MSG_ID_COMMAND_ACK, false); messageFilter.insert(MAVLINK_MSG_ID_PARAM_SET, false); messageFilter.insert(MAVLINK_MSG_ID_PARAM_VALUE, false); messageFilter.insert(MAVLINK_MSG_ID_MISSION_ITEM, false); messageFilter.insert(MAVLINK_MSG_ID_MISSION_COUNT, false); messageFilter.insert(MAVLINK_MSG_ID_MISSION_ACK, false); messageFilter.insert(MAVLINK_MSG_ID_DATA_STREAM, false); messageFilter.insert(MAVLINK_MSG_ID_GPS_STATUS, false); #ifdef MAVLINK_ENABLED_PIXHAWK messageFilter.insert(MAVLINK_MSG_ID_ENCAPSULATED_DATA, false); messageFilter.insert(MAVLINK_MSG_ID_DATA_TRANSMISSION_HANDSHAKE, false); #endif messageFilter.insert(MAVLINK_MSG_ID_EXTENDED_MESSAGE, false); textMessageFilter.insert(MAVLINK_MSG_ID_DEBUG, false); textMessageFilter.insert(MAVLINK_MSG_ID_DEBUG_VECT, false); textMessageFilter.insert(MAVLINK_MSG_ID_NAMED_VALUE_FLOAT, false); textMessageFilter.insert(MAVLINK_MSG_ID_NAMED_VALUE_INT, false); connect(protocol, SIGNAL(messageReceived(LinkInterface*,mavlink_message_t)), this, SLOT(receiveMessage(LinkInterface*,mavlink_message_t))); } void MAVLinkDecoder::receiveMessage(LinkInterface* link,mavlink_message_t message) { Q_UNUSED(link); memcpy(receivedMessages+message.msgid, &message, sizeof(mavlink_message_t)); uint8_t msgid = message.msgid; // Handle time sync message if (message.msgid == MAVLINK_MSG_ID_SYSTEM_TIME && message.compid == 200) { mavlink_system_time_t timebase; mavlink_msg_system_time_decode(&message, &timebase); onboardTimeOffset[message.sysid] = timebase.time_unix_usec/1000 - timebase.time_boot_ms; onboardToGCSUnixTimeOffsetAndDelay[message.sysid] = static_cast(QGC::groundTimeMilliseconds() - timebase.time_unix_usec/1000); } else { QString messageName("%1 (#%2)"); messageName = messageName.arg(messageInfo[msgid].name).arg(msgid); // See if first value is a time value quint64 time = 0; uint8_t fieldid = 0; uint8_t* m = ((uint8_t*)(receivedMessages+msgid))+8; if (QString(messageInfo[msgid].fields[fieldid].name) == QString("time_boot_ms") && messageInfo[msgid].fields[fieldid].type == MAVLINK_TYPE_UINT32_T) { time = *((quint32*)(m+messageInfo[msgid].fields[fieldid].wire_offset)); } else if (QString(messageInfo[msgid].fields[fieldid].name).contains("usec") && messageInfo[msgid].fields[fieldid].type == MAVLINK_TYPE_UINT64_T) { time = *((quint64*)(m+messageInfo[msgid].fields[fieldid].wire_offset)); time = time/1000; // Scale to milliseconds } else { // First value is not time, send out value 0 emitFieldValue(&message, fieldid, getUnixTimeFromMs(message.sysid, 0)); } // Align time to global time time = getUnixTimeFromMs(message.sysid, time); // Send out field values from 1..n for (unsigned int i = 1; i < messageInfo[msgid].num_fields; ++i) { emitFieldValue(&message, i, time); } } // Send out combined math expressions // FIXME XXX TODO } quint64 MAVLinkDecoder::getUnixTimeFromMs(int systemID, quint64 time) { quint64 ret = 0; if (time == 0) { ret = QGC::groundTimeMilliseconds() - onboardToGCSUnixTimeOffsetAndDelay[systemID]; } // Check if time is smaller than 40 years, // assuming no system without Unix timestamp // runs longer than 40 years continuously without // reboot. In worst case this will add/subtract the // communication delay between GCS and MAV, // it will never alter the timestamp in a safety // critical way. // // Calculation: // 40 years // 365 days // 24 hours // 60 minutes // 60 seconds // 1000 milliseconds // 1000 microseconds #ifndef _MSC_VER else if (time < 1261440000000LLU) #else else if (time < 1261440000000) #endif { if (onboardTimeOffset[systemID] == 0 || time < (firstOnboardTime[systemID]-2000)) { firstOnboardTime[systemID] = time; onboardTimeOffset[systemID] = QGC::groundTimeMilliseconds() - time; } ret = time + onboardTimeOffset[systemID]; } else { // Time is not zero and larger than 40 years -> has to be // a Unix epoch timestamp. Do nothing. ret = time; } return ret; } void MAVLinkDecoder::emitFieldValue(mavlink_message_t* msg, int fieldid, quint64 time) { bool multiComponentSourceDetected = false; bool wrongComponent = false; // Store component ID if (componentID[msg->msgid] == -1) { componentID[msg->msgid] = msg->compid; } else { // Got this message already if (componentID[msg->msgid] != msg->compid) { componentMulti[msg->msgid] = true; wrongComponent = true; } } if (componentMulti[msg->msgid] == true) multiComponentSourceDetected = true; // Add field tree widget item uint8_t msgid = msg->msgid; if (messageFilter.contains(msgid)) return; QString fieldName(messageInfo[msgid].fields[fieldid].name); QString fieldType; uint8_t* m = ((uint8_t*)(receivedMessages+msgid))+8; QString name("%1.%2"); QString unit(""); // Debug vector messages if (msgid == MAVLINK_MSG_ID_DEBUG_VECT) { mavlink_debug_vect_t debug; mavlink_msg_debug_vect_decode(msg, &debug); name = name.arg(QString(debug.name), fieldName); time = debug.time_usec / 1000; } else if (msgid == MAVLINK_MSG_ID_DEBUG) { mavlink_debug_t debug; mavlink_msg_debug_decode(msg, &debug); name = name.arg(QString("debug")).arg(debug.ind); time = debug.time_boot_ms; } else if (msgid == MAVLINK_MSG_ID_NAMED_VALUE_FLOAT) { mavlink_named_value_float_t debug; mavlink_msg_named_value_float_decode(msg, &debug); name = name.arg(debug.name).arg(fieldName); time = debug.time_boot_ms; } else if (msgid == MAVLINK_MSG_ID_NAMED_VALUE_INT) { mavlink_named_value_int_t debug; mavlink_msg_named_value_int_decode(msg, &debug); name = name.arg(debug.name).arg(fieldName); time = debug.time_boot_ms; } else { name = name.arg(messageInfo[msgid].name, fieldName); } if (multiComponentSourceDetected) name.prepend(QString("C%1:").arg(msg->compid)); name.prepend(QString("M%1:").arg(msg->sysid)); switch (messageInfo[msgid].fields[fieldid].type) { case MAVLINK_TYPE_CHAR: if (messageInfo[msgid].fields[fieldid].array_length > 0) { char* str = (char*)(m+messageInfo[msgid].fields[fieldid].wire_offset); // Enforce null termination str[messageInfo[msgid].fields[fieldid].array_length-1] = '\0'; QString string(name + ": " + str); if (!textMessageFilter.contains(msgid)) emit textMessageReceived(msg->sysid, msg->compid, 0, string); } else { // Single char char b = *((char*)(m+messageInfo[msgid].fields[fieldid].wire_offset)); unit = QString("char[%1]").arg(messageInfo[msgid].fields[fieldid].array_length); emit valueChanged(msg->sysid, name, unit, b, time); } break; case MAVLINK_TYPE_UINT8_T: if (messageInfo[msgid].fields[fieldid].array_length > 0) { uint8_t* nums = m+messageInfo[msgid].fields[fieldid].wire_offset; fieldType = QString("uint8_t[%1]").arg(messageInfo[msgid].fields[fieldid].array_length); for (unsigned int j = 0; j < messageInfo[msgid].fields[fieldid].array_length; ++j) { emit valueChanged(msg->sysid, QString("%1.%2").arg(name).arg(j), fieldType, nums[j], time); } } else { // Single value uint8_t u = *(m+messageInfo[msgid].fields[fieldid].wire_offset); fieldType = "uint8_t"; emit valueChanged(msg->sysid, name, fieldType, u, time); } break; case MAVLINK_TYPE_INT8_T: if (messageInfo[msgid].fields[fieldid].array_length > 0) { int8_t* nums = (int8_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset); fieldType = QString("int8_t[%1]").arg(messageInfo[msgid].fields[fieldid].array_length); for (unsigned int j = 0; j < messageInfo[msgid].fields[j].array_length; ++j) { emit valueChanged(msg->sysid, QString("%1.%2").arg(name).arg(j), fieldType, nums[j], time); } } else { // Single value int8_t n = *((int8_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset)); fieldType = "int8_t"; emit valueChanged(msg->sysid, name, fieldType, n, time); } break; case MAVLINK_TYPE_UINT16_T: if (messageInfo[msgid].fields[fieldid].array_length > 0) { uint16_t* nums = (uint16_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset); fieldType = QString("uint16_t[%1]").arg(messageInfo[msgid].fields[fieldid].array_length); for (unsigned int j = 0; j < messageInfo[msgid].fields[j].array_length; ++j) { emit valueChanged(msg->sysid, QString("%1.%2").arg(name).arg(j), fieldType, nums[j], time); } } else { // Single value uint16_t n = *((uint16_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset)); fieldType = "uint16_t"; emit valueChanged(msg->sysid, name, fieldType, n, time); } break; case MAVLINK_TYPE_INT16_T: if (messageInfo[msgid].fields[fieldid].array_length > 0) { int16_t* nums = (int16_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset); fieldType = QString("int16_t[%1]").arg(messageInfo[msgid].fields[fieldid].array_length); for (unsigned int j = 0; j < messageInfo[msgid].fields[j].array_length; ++j) { emit valueChanged(msg->sysid, QString("%1.%2").arg(name).arg(j), fieldType, nums[j], time); } } else { // Single value int16_t n = *((int16_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset)); fieldType = "int16_t"; emit valueChanged(msg->sysid, name, fieldType, n, time); } break; case MAVLINK_TYPE_UINT32_T: if (messageInfo[msgid].fields[fieldid].array_length > 0) { uint32_t* nums = (uint32_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset); fieldType = QString("uint32_t[%1]").arg(messageInfo[msgid].fields[fieldid].array_length); for (unsigned int j = 0; j < messageInfo[msgid].fields[j].array_length; ++j) { emit valueChanged(msg->sysid, QString("%1.%2").arg(name).arg(j), fieldType, nums[j], time); } } else { // Single value float n = *((uint32_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset)); fieldType = "uint32_t"; emit valueChanged(msg->sysid, name, fieldType, n, time); } break; case MAVLINK_TYPE_INT32_T: if (messageInfo[msgid].fields[fieldid].array_length > 0) { int32_t* nums = (int32_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset); fieldType = QString("int32_t[%1]").arg(messageInfo[msgid].fields[fieldid].array_length); for (unsigned int j = 0; j < messageInfo[msgid].fields[j].array_length; ++j) { emit valueChanged(msg->sysid, QString("%1.%2").arg(name).arg(j), fieldType, nums[j], time); } } else { // Single value int32_t n = *((int32_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset)); fieldType = "int32_t"; emit valueChanged(msg->sysid, name, fieldType, n, time); } break; case MAVLINK_TYPE_FLOAT: if (messageInfo[msgid].fields[fieldid].array_length > 0) { float* nums = (float*)(m+messageInfo[msgid].fields[fieldid].wire_offset); fieldType = QString("float[%1]").arg(messageInfo[msgid].fields[fieldid].array_length); for (unsigned int j = 0; j < messageInfo[msgid].fields[j].array_length; ++j) { emit valueChanged(msg->sysid, QString("%1.%2").arg(name).arg(j), fieldType, nums[j], time); } } else { // Single value float f = *((float*)(m+messageInfo[msgid].fields[fieldid].wire_offset)); fieldType = "float"; emit valueChanged(msg->sysid, name, fieldType, f, time); } break; case MAVLINK_TYPE_DOUBLE: if (messageInfo[msgid].fields[fieldid].array_length > 0) { double* nums = (double*)(m+messageInfo[msgid].fields[fieldid].wire_offset); fieldType = QString("double[%1]").arg(messageInfo[msgid].fields[fieldid].array_length); for (unsigned int j = 0; j < messageInfo[msgid].fields[j].array_length; ++j) { emit valueChanged(msg->sysid, QString("%1.%2").arg(name).arg(j), fieldType, nums[j], time); } } else { // Single value double f = *((double*)(m+messageInfo[msgid].fields[fieldid].wire_offset)); fieldType = "double"; emit valueChanged(msg->sysid, name, fieldType, f, time); } break; case MAVLINK_TYPE_UINT64_T: if (messageInfo[msgid].fields[fieldid].array_length > 0) { uint64_t* nums = (uint64_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset); fieldType = QString("uint64_t[%1]").arg(messageInfo[msgid].fields[fieldid].array_length); for (unsigned int j = 0; j < messageInfo[msgid].fields[j].array_length; ++j) { emit valueChanged(msg->sysid, QString("%1.%2").arg(name).arg(j), fieldType, (quint64) nums[j], time); } } else { // Single value uint64_t n = *((uint64_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset)); fieldType = "uint64_t"; emit valueChanged(msg->sysid, name, fieldType, (quint64) n, time); } break; case MAVLINK_TYPE_INT64_T: if (messageInfo[msgid].fields[fieldid].array_length > 0) { int64_t* nums = (int64_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset); fieldType = QString("int64_t[%1]").arg(messageInfo[msgid].fields[fieldid].array_length); for (unsigned int j = 0; j < messageInfo[msgid].fields[j].array_length; ++j) { emit valueChanged(msg->sysid, QString("%1.%2").arg(name).arg(j), fieldType, (qint64) nums[j], time); } } else { // Single value int64_t n = *((int64_t*)(m+messageInfo[msgid].fields[fieldid].wire_offset)); fieldType = "int64_t"; emit valueChanged(msg->sysid, name, fieldType, (qint64) n, time); } break; } }