/** ****************************************************************************** * * @file uavobjectparser.cpp * @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010. * @brief Parses XML files and extracts object information. * * @see The GNU Public License (GPL) Version 3 * *****************************************************************************/ /* * 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, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "uavobjectparser.h" #include #include #include /** * Constructor */ UAVObjectParser::UAVObjectParser() { fieldTypeStrXML << "int8" << "int16" << "int32" << "uint8" << "uint16" << "uint32" << "float" << "enum"; updateModeStrXML << "manual" << "periodic" << "onchange" << "throttled"; accessModeStr << "ACCESS_READWRITE" << "ACCESS_READONLY"; fieldTypeNumBytes << int(1) << int(2) << int(4) << int(1) << int(2) << int(4) << int(4) << int(1); accessModeStrXML << "readwrite" << "readonly"; } /** * Get number of objects */ int UAVObjectParser::getNumObjects() { return objInfo.length(); } /** * Get the detailed object information */ QList UAVObjectParser::getObjectInfo() { return objInfo; } ObjectInfo *UAVObjectParser::getObjectByIndex(int objIndex) { return objInfo[objIndex]; } /** * Get the name of the object */ QString UAVObjectParser::getObjectName(int objIndex) { ObjectInfo *info = objInfo[objIndex]; if (info == NULL) { return QString(); } return info->name; } /** * Get the ID of the object */ quint32 UAVObjectParser::getObjectID(int objIndex) { ObjectInfo *info = objInfo[objIndex]; if (info == NULL) { return 0; } return info->id; } /** * Get the number of bytes in the data fields of this object */ int UAVObjectParser::getNumBytes(int objIndex) { ObjectInfo *info = objInfo[objIndex]; if (info == NULL) { return 0; } else { int numBytes = 0; for (int n = 0; n < info->fields.length(); ++n) { numBytes += info->fields[n]->numBytes * info->fields[n]->numElements; } return numBytes; } } bool fieldTypeLessThan(const FieldInfo *f1, const FieldInfo *f2) { return f1->numBytes > f2->numBytes; } /** * Parse supplied XML file * @param xml The xml text * @param filename The xml filename * @returns Null QString() on success, error message on failure */ QString UAVObjectParser::parseXML(QString & xml, QString & filename) { // Create DOM document and parse it QDomDocument doc("UAVObjects"); bool parsed = doc.setContent(xml); if (!parsed) { return QString("Improperly formated XML file"); } // Read all objects contained in the XML file, creating an new ObjectInfo for each QDomElement docElement = doc.documentElement(); QDomNode node = docElement.firstChild(); while (!node.isNull()) { // Create new object entry ObjectInfo *info = new ObjectInfo; info->filename = filename; // Process object attributes QString status = processObjectAttributes(node, info); if (!status.isNull()) { return status; } // Process child elements (fields and metadata) QDomNode childNode = node.firstChild(); bool fieldFound = false; bool accessFound = false; bool telGCSFound = false; bool telFlightFound = false; bool logFound = false; bool descriptionFound = false; while (!childNode.isNull()) { // Process element depending on its type if (childNode.nodeName().compare(QString("field")) == 0) { QString status = processObjectFields(childNode, info); if (!status.isNull()) { return status; } fieldFound = true; } else if (childNode.nodeName().compare(QString("access")) == 0) { QString status = processObjectAccess(childNode, info); if (!status.isNull()) { return status; } accessFound = true; } else if (childNode.nodeName().compare(QString("telemetrygcs")) == 0) { QString status = processObjectMetadata(childNode, &info->gcsTelemetryUpdateMode, &info->gcsTelemetryUpdatePeriod, &info->gcsTelemetryAcked); if (!status.isNull()) { return status; } telGCSFound = true; } else if (childNode.nodeName().compare(QString("telemetryflight")) == 0) { QString status = processObjectMetadata(childNode, &info->flightTelemetryUpdateMode, &info->flightTelemetryUpdatePeriod, &info->flightTelemetryAcked); if (!status.isNull()) { return status; } telFlightFound = true; } else if (childNode.nodeName().compare(QString("logging")) == 0) { QString status = processObjectMetadata(childNode, &info->loggingUpdateMode, &info->loggingUpdatePeriod, NULL); if (!status.isNull()) { return status; } logFound = true; } else if (childNode.nodeName().compare(QString("description")) == 0) { QString status = processObjectDescription(childNode, &info->description); if (!status.isNull()) { return status; } descriptionFound = true; } else if (!childNode.isComment()) { return QString("Unknown object element"); } // Get next element childNode = childNode.nextSibling(); } // Sort all fields according to size qStableSort(info->fields.begin(), info->fields.end(), fieldTypeLessThan); // Make sure that required elements were found if (!fieldFound) { return QString("Object::field element is missing"); } if (!accessFound) { return QString("Object::access element is missing"); } if (!telGCSFound) { return QString("Object::telemetrygcs element is missing"); } if (!telFlightFound) { return QString("Object::telemetryflight element is missing"); } if (!logFound) { return QString("Object::logging element is missing"); } // TODO: Make into error once all objects updated if (!descriptionFound) { return QString("Object::description element is missing"); } // Calculate ID calculateID(info); // Add object objInfo.append(info); // Get next object node = node.nextSibling(); } all_units.removeDuplicates(); // Done, return null string return QString(); } /** * Calculate the unique object ID based on the object information. * The ID will change if the object definition changes, this is intentional * and is used to avoid connecting objects with incompatible configurations. * The LSB is set to zero and is reserved for metadata */ void UAVObjectParser::calculateID(ObjectInfo *info) { // Hash object name quint32 hash = updateHash(info->name, 0); // Hash object attributes hash = updateHash(info->isSettings, hash); hash = updateHash(info->isSingleInst, hash); // Hash field information for (int n = 0; n < info->fields.length(); ++n) { hash = updateHash(info->fields[n]->name, hash); hash = updateHash(info->fields[n]->numElements, hash); hash = updateHash(info->fields[n]->type, hash); if (info->fields[n]->type == FIELDTYPE_ENUM) { QStringList options = info->fields[n]->options; for (int m = 0; m < options.length(); m++) { hash = updateHash(options[m], hash); } } } // Done info->id = hash & 0xFFFFFFFE; } /** * Shift-Add-XOR hash implementation. LSB is set to zero, it is reserved * for the ID of the metaobject. * * http://eternallyconfuzzled.com/tuts/algorithms/jsw_tut_hashing.aspx */ quint32 UAVObjectParser::updateHash(quint32 value, quint32 hash) { return hash ^ ((hash << 5) + (hash >> 2) + value); } /** * Update the hash given a string */ quint32 UAVObjectParser::updateHash(QString & value, quint32 hash) { QByteArray bytes = value.toLatin1(); quint32 hashout = hash; for (int n = 0; n < bytes.length(); ++n) { hashout = updateHash(bytes[n], hashout); } return hashout; } /** * Process the metadata part of the XML */ QString UAVObjectParser::processObjectMetadata(QDomNode & childNode, UpdateMode *mode, int *period, bool *acked) { // Get updatemode attribute QDomNamedNodeMap elemAttributes = childNode.attributes(); QDomNode elemAttr = elemAttributes.namedItem("updatemode"); if (elemAttr.isNull()) { return QString("Object:telemetrygcs:updatemode attribute is missing"); } int index = updateModeStrXML.indexOf(elemAttr.nodeValue()); if (index < 0) { return QString("Object:telemetrygcs:updatemode attribute value is invalid"); } *mode = (UpdateMode)index; // Get period attribute elemAttr = elemAttributes.namedItem("period"); if (elemAttr.isNull()) { return QString("Object:telemetrygcs:period attribute is missing"); } *period = elemAttr.nodeValue().toInt(); // Get acked attribute (only if acked parameter is not null, not applicable for logging metadata) if (acked != NULL) { elemAttr = elemAttributes.namedItem("acked"); if (elemAttr.isNull()) { return QString("Object:telemetrygcs:acked attribute is missing"); } if (elemAttr.nodeValue().compare(QString("true")) == 0) { *acked = true; } else if (elemAttr.nodeValue().compare(QString("false")) == 0) { *acked = false; } else { return QString("Object:telemetrygcs:acked attribute value is invalid"); } } // Done return QString(); } /** * Process the object access tag of the XML */ QString UAVObjectParser::processObjectAccess(QDomNode & childNode, ObjectInfo *info) { // Get gcs attribute QDomNamedNodeMap elemAttributes = childNode.attributes(); QDomNode elemAttr = elemAttributes.namedItem("gcs"); if (elemAttr.isNull()) { return QString("Object:access:gcs attribute is missing"); } int index = accessModeStrXML.indexOf(elemAttr.nodeValue()); if (index >= 0) { info->gcsAccess = (AccessMode)index; } else { return QString("Object:access:gcs attribute value is invalid"); } // Get flight attribute elemAttr = elemAttributes.namedItem("flight"); if (elemAttr.isNull()) { return QString("Object:access:flight attribute is missing"); } index = accessModeStrXML.indexOf(elemAttr.nodeValue()); if (index >= 0) { info->flightAccess = (AccessMode)index; } else { return QString("Object:access:flight attribute value is invalid"); } // Done return QString(); } /** * Process the object fields of the XML */ QString UAVObjectParser::processObjectFields(QDomNode & childNode, ObjectInfo *info) { // Create field FieldInfo *field = new FieldInfo; // Get name attribute QDomNamedNodeMap elemAttributes = childNode.attributes(); QDomNode elemAttr = elemAttributes.namedItem("name"); if (elemAttr.isNull()) { return QString("Object:field:name attribute is missing"); } QString name = elemAttr.nodeValue(); // Check to see is this field is a clone of another // field that has already been declared elemAttr = elemAttributes.namedItem("cloneof"); if (!elemAttr.isNull()) { QString parentName = elemAttr.nodeValue(); if (!parentName.isEmpty()) { foreach(FieldInfo * parent, info->fields) { if (parent->name == parentName) { // clone from this parent *field = *parent; // safe shallow copy, no ptrs in struct field->name = name; // set our name // Add field to object info->fields.append(field); // Done return QString(); } } return QString("Object:field::cloneof parent unknown"); } else { return QString("Object:field:cloneof attribute is empty"); } } else { // this field is not a clone, so remember its name field->name = name; } // Get description attribute if any elemAttr = elemAttributes.namedItem("description"); if (!elemAttr.isNull()) { field->description = elemAttr.nodeValue(); } else { // Look for a child description node QDomNode node = childNode.firstChildElement("description"); if (!node.isNull()) { QDomNode description = node.firstChild(); if (!description.isNull()) { field->description = description.nodeValue(); } } } // Get units attribute elemAttr = elemAttributes.namedItem("units"); if (elemAttr.isNull()) { return QString("Object:field:units attribute is missing"); } field->units = elemAttr.nodeValue(); all_units << field->units; // Get type attribute elemAttr = elemAttributes.namedItem("type"); if (elemAttr.isNull()) { return QString("Object:field:type attribute is missing"); } int index = fieldTypeStrXML.indexOf(elemAttr.nodeValue()); if (index >= 0) { field->type = (FieldType)index; field->numBytes = fieldTypeNumBytes[index]; } else { return QString("Object:field:type attribute value is invalid"); } // Get numelements or elementnames attribute field->numElements = 0; // Look for element names as an attribute first elemAttr = elemAttributes.namedItem("elementnames"); if (!elemAttr.isNull()) { // Get element names QStringList names = elemAttr.nodeValue().split(",", QString::SkipEmptyParts); for (int n = 0; n < names.length(); ++n) { names[n] = names[n].trimmed(); } field->elementNames = names; field->numElements = names.length(); field->defaultElementNames = false; } else { // Look for a list of child elementname nodes QDomNode listNode = childNode.firstChildElement("elementnames"); if (!listNode.isNull()) { for (QDomElement node = listNode.firstChildElement("elementname"); !node.isNull(); node = node.nextSiblingElement("elementname")) { QDomNode name = node.firstChild(); if (!name.isNull() && name.isText() && !name.nodeValue().isEmpty()) { field->elementNames.append(name.nodeValue()); } } field->numElements = field->elementNames.length(); field->defaultElementNames = false; } } // If no element names were found, then fall back to looking // for the number of elements in the 'elements' attribute if (field->numElements == 0) { elemAttr = elemAttributes.namedItem("elements"); if (elemAttr.isNull()) { return QString("Object:field:elements and Object:field:elementnames attribute/element is missing"); } else { field->numElements = elemAttr.nodeValue().toInt(); for (int n = 0; n < field->numElements; ++n) { field->elementNames.append(QString("%1").arg(n)); } field->defaultElementNames = true; } } // Get options attribute or child elements (only if an enum type) if (field->type == FIELDTYPE_ENUM) { // Look for options attribute elemAttr = elemAttributes.namedItem("options"); if (!elemAttr.isNull()) { QStringList options = elemAttr.nodeValue().split(",", QString::SkipEmptyParts); for (int n = 0; n < options.length(); ++n) { options[n] = options[n].trimmed(); } field->options = options; } else { // Look for a list of child 'option' nodes QDomNode listNode = childNode.firstChildElement("options"); if (!listNode.isNull()) { for (QDomElement node = listNode.firstChildElement("option"); !node.isNull(); node = node.nextSiblingElement("option")) { QDomNode name = node.firstChild(); if (!name.isNull() && name.isText() && !name.nodeValue().isEmpty()) { field->options.append(name.nodeValue()); } } } } if (field->options.length() == 0) { return QString("Object:field:options attribute/element is missing"); } } // Get the default value attribute (required for settings objects, optional for the rest) elemAttr = elemAttributes.namedItem("defaultvalue"); if (elemAttr.isNull()) { if (info->isSettings) { return QString("Object:field:defaultvalue attribute is missing (required for settings objects)"); } field->defaultValues = QStringList(); } else { QStringList defaults = elemAttr.nodeValue().split(",", QString::SkipEmptyParts); for (int n = 0; n < defaults.length(); ++n) { defaults[n] = defaults[n].trimmed(); } if (defaults.length() != field->numElements) { if (defaults.length() != 1) { return QString("Object:field:incorrect number of default values"); } /*support legacy single default for multiple elements We should really issue a warning*/ for (int ct = 1; ct < field->numElements; ct++) { defaults.append(defaults[0]); } } field->defaultValues = defaults; } // Limits attribute elemAttr = elemAttributes.namedItem("limits"); if (elemAttr.isNull()) { field->limitValues = QString(); } else { field->limitValues = elemAttr.nodeValue(); } // Add field to object info->fields.append(field); // Done return QString(); } /** * Process the object attributes from the XML */ QString UAVObjectParser::processObjectAttributes(QDomNode & node, ObjectInfo *info) { // Get name attribute QDomNamedNodeMap attributes = node.attributes(); QDomNode attr = attributes.namedItem("name"); if (attr.isNull()) { return QString("Object:name attribute is missing"); } info->name = attr.nodeValue(); info->namelc = attr.nodeValue().toLower(); // Get category attribute if present attr = attributes.namedItem("category"); if (!attr.isNull()) { info->category = attr.nodeValue(); } // Get singleinstance attribute attr = attributes.namedItem("singleinstance"); if (attr.isNull()) { return QString("Object:singleinstance attribute is missing"); } if (attr.nodeValue().compare(QString("true")) == 0) { info->isSingleInst = true; } else if (attr.nodeValue().compare(QString("false")) == 0) { info->isSingleInst = false; } else { return QString("Object:singleinstance attribute value is invalid"); } // Get settings attribute attr = attributes.namedItem("settings"); if (attr.isNull()) { return QString("Object:settings attribute is missing"); } if (attr.nodeValue().compare(QString("true")) == 0) { info->isSettings = true; } else if (attr.nodeValue().compare(QString("false")) == 0) { info->isSettings = false; } else { return QString("Object:settings attribute value is invalid (true|false)"); } // Get priority attribute attr = attributes.namedItem("priority"); info->isPriority = false; if (!attr.isNull()) { if (attr.nodeValue().compare(QString("true")) == 0) { info->isPriority = true; } else if (attr.nodeValue().compare(QString("false")) != 0) { return QString("Object:priority attribute value is invalid (true|false)"); } } // Settings objects can only have a single instance if (info->isSettings && !info->isSingleInst) { return QString("Object: Settings objects can not have multiple instances"); } // Done return QString(); } /** * Process the description field from the XML file */ QString UAVObjectParser::processObjectDescription(QDomNode & childNode, QString *description) { description->append(childNode.firstChild().nodeValue()); return QString(); }