/* * SPDX-FileCopyrightText: 2021 Anjani Kumar * SPDX-FileCopyrightText: 2021 Han Young * SPDX-License-Identifier: LGPL-2.0-or-later */ #include "capparser.h" #include "capalertinfo.h" #include "capalertmessage.h" #include "caparea.h" #include "capnamedvalue.h" #include "capreference.h" #include "kweathercore_p.h" #include #include #include #include namespace KWeatherCore { template struct MapEntry { const char *name; T value; }; template static std::optional stringToValue(const QStringT &s, const MapEntry (&map)[N]) { const auto it = std::lower_bound(std::begin(map), std::end(map), s, [](auto lhs, auto rhs) { return QLatin1String(lhs.name) < rhs; }); if (it != std::end(map) && QLatin1String((*it).name) == s) { return (*it).value; } return {}; } // ### important: keep all the following tables sorted by name! static constexpr const MapEntry category_map[] = { {"CBRNE", CAPAlertInfo::Category::CBRNE}, {"Env", CAPAlertInfo::Category::Environmental}, {"Fire", CAPAlertInfo::Category::Fire}, {"Geo", CAPAlertInfo::Category::Geophysical}, {"Health", CAPAlertInfo::Category::Health}, {"Infra", CAPAlertInfo::Category::Infrastructure}, {"Met", CAPAlertInfo::Category::Meteorological}, {"Other", CAPAlertInfo::Category::Other}, {"Rescue", CAPAlertInfo::Category::Rescue}, {"Safety", CAPAlertInfo::Category::Safety}, {"Security", CAPAlertInfo::Category::Security}, {"Transport", CAPAlertInfo::Category::Transport}, }; enum class Tags { ALERT, IDENTIFIER, SENDER, SENT_TIME, STATUS, MSG_TYPE, SCOPE, NOTE, INFO, REFERENCES }; static constexpr const MapEntry tag_map[] = { {"alert", Tags::ALERT}, {"identifier", Tags::IDENTIFIER}, {"info", Tags::INFO}, {"msgType", Tags::MSG_TYPE}, {"note", Tags::NOTE}, {"references", Tags::REFERENCES}, {"scope", Tags::SCOPE}, {"sender", Tags::SENDER}, {"sent", Tags::SENT_TIME}, {"status", Tags::STATUS}, }; enum class InfoTags { HEADLINE, DESCRIPTION, EVENT, EVENTCODE, EFFECTIVE_TIME, ONSET_TIME, EXPIRE_TIME, CATEGORY, INSTRUCTION, URGENCY, SEVERITY, CERTAINITY, PARAMETER, AREA, SENDERNAME, LANGUAGE, RESPONSETYPE, CONTACT, WEB, }; static constexpr const MapEntry info_tag_map[] = { {"area", InfoTags::AREA}, {"category", InfoTags::CATEGORY}, {"certainty", InfoTags::CERTAINITY}, {"contact", InfoTags::CONTACT}, {"description", InfoTags::DESCRIPTION}, {"effective", InfoTags::EFFECTIVE_TIME}, {"event", InfoTags::EVENT}, {"eventCode", InfoTags::EVENTCODE}, {"expires", InfoTags::EXPIRE_TIME}, {"headline", InfoTags::HEADLINE}, {"instruction", InfoTags::INSTRUCTION}, {"language", InfoTags::LANGUAGE}, {"onset", InfoTags::ONSET_TIME}, {"parameter", InfoTags::PARAMETER}, {"responseType", InfoTags::RESPONSETYPE}, {"senderName", InfoTags::SENDERNAME}, {"severity", InfoTags::SEVERITY}, {"urgency", InfoTags::URGENCY}, {"web", InfoTags::WEB}, }; static constexpr const MapEntry status_map[] = { {"Actual", CAPAlertMessage::Status::Actual}, {"Draft", CAPAlertMessage::Status::Draft}, {"Excercise", CAPAlertMessage::Status::Exercise}, {"System", CAPAlertMessage::Status::System}, {"Test", CAPAlertMessage::Status::Test}, }; static constexpr const MapEntry msgtype_map[] = { {"Ack", CAPAlertMessage::MessageType::Acknowledge}, {"Alert", CAPAlertMessage::MessageType::Alert}, {"Cancel", CAPAlertMessage::MessageType::Cancel}, {"Error", CAPAlertMessage::MessageType::Error}, {"Update", CAPAlertMessage::MessageType::Update}, }; static constexpr const MapEntry scope_map[] = { {"Private", CAPAlertMessage::Scope::Private}, {"Public", CAPAlertMessage::Scope::Public}, {"Restricted", CAPAlertMessage::Scope::Restricted}, }; static constexpr const MapEntry response_type_map[] = { {"AllClear", CAPAlertInfo::ResponseType::AllClear}, {"Assess", CAPAlertInfo::ResponseType::Assess}, {"Avoid", CAPAlertInfo::ResponseType::Avoid}, {"Evacuate", CAPAlertInfo::ResponseType::Evacuate}, {"Execute", CAPAlertInfo::ResponseType::Execute}, {"Monitor", CAPAlertInfo::ResponseType::Monitor}, {"None", CAPAlertInfo::ResponseType::None}, {"Prepare", CAPAlertInfo::ResponseType::Prepare}, {"Shelter", CAPAlertInfo::ResponseType::Shelter}, }; CAPParser::CAPParser(const QByteArray &data) : m_xml(data) { bool flag = false; if (!data.isEmpty()) { while (m_xml.readNextStartElement()) { if (m_xml.name() == QStringLiteral("alert")) { flag = true; break; } } if (!flag) { qWarning() << "Not a CAP XML"; } } } CAPAlertMessage CAPParser::parse() { CAPAlertMessage entry; while (m_xml.readNextStartElement()) { const auto tag = stringToValue(m_xml.name(), tag_map); if (!tag) { m_xml.skipCurrentElement(); continue; } switch (*tag) { case Tags::IDENTIFIER: entry.setIdentifier(m_xml.readElementText()); break; case Tags::SENDER: entry.setSender(m_xml.readElementText()); break; case Tags::SENT_TIME: entry.setSentTime(QDateTime::fromString(m_xml.readElementText(), Qt::ISODate)); break; case Tags::STATUS: { const auto elementText = m_xml.readElementText(); const auto status = stringToValue(elementText, status_map); if (status) { entry.setStatus(*status); } else { qWarning() << "Unknown status field" << elementText; } break; } case Tags::MSG_TYPE: { const auto elementText = m_xml.readElementText(); const auto msgType = stringToValue(elementText, msgtype_map); if (msgType) { entry.setMessageType(*msgType); } else { qWarning() << "Unknown msgType field" << elementText; } break; } case Tags::SCOPE: { const auto elementText = m_xml.readElementText(); const auto scope = stringToValue(elementText, scope_map); if (scope) { entry.setScope(*scope); } else { qWarning() << "Unknown scope field" << elementText; } break; } case Tags::NOTE: entry.setNote(m_xml.readElementText()); break; case Tags::INFO: { auto info = parseInfo(); entry.addInfo(std::move(info)); break; } case Tags::REFERENCES: entry.setReferences(parseReferences(m_xml.readElementText())); break; default: m_xml.skipCurrentElement(); } } return entry; } CAPAlertInfo CAPParser::parseInfo() { CAPAlertInfo info; if (m_xml.name() == QLatin1String("info")) { while (!m_xml.atEnd() && !(m_xml.isEndElement() && m_xml.name() == QLatin1String("info"))) { m_xml.readNext(); if (!m_xml.isStartElement()) { continue; } const auto tag = stringToValue(m_xml.name(), info_tag_map); if (tag) { switch (*tag) { case InfoTags::CATEGORY: { const auto s = m_xml.readElementText(); const auto category = stringToValue(s, category_map); if (category) { info.addCategory(*category); } break; } case InfoTags::EVENT: info.setEvent(m_xml.readElementText()); break; case InfoTags::URGENCY: info.setUrgency(KWeatherCorePrivate::urgencyStringToEnum(m_xml.readElementText())); break; case InfoTags::SEVERITY: info.setSeverity(KWeatherCorePrivate::severityStringToEnum(m_xml.readElementText())); break; case InfoTags::CERTAINITY: info.setCertainty(KWeatherCorePrivate::certaintyStringToEnum(m_xml.readElementText())); break; case InfoTags::EFFECTIVE_TIME: info.setEffectiveTime(QDateTime::fromString(m_xml.readElementText(), Qt::ISODate)); break; case InfoTags::ONSET_TIME: info.setOnsetTime(QDateTime::fromString(m_xml.readElementText(), Qt::ISODate)); break; case InfoTags::EXPIRE_TIME: info.setExpireTime(QDateTime::fromString(m_xml.readElementText(), Qt::ISODate)); break; case InfoTags::HEADLINE: info.setHeadline(m_xml.readElementText()); break; case InfoTags::DESCRIPTION: info.setDescription(m_xml.readElementText()); break; case InfoTags::INSTRUCTION: info.setInstruction(m_xml.readElementText()); break; case InfoTags::PARAMETER: { info.addParameter(parseNamedValue()); break; } case InfoTags::AREA: { info.addArea(parseArea()); break; } case InfoTags::SENDERNAME: { info.setSender(m_xml.readElementText()); break; } case InfoTags::LANGUAGE: info.setLanguage(m_xml.readElementText()); break; case InfoTags::RESPONSETYPE: { const auto elementText = m_xml.readElementText(); if (const auto respType = stringToValue(elementText, response_type_map)) { info.addResponseType(*respType); } else { qWarning() << "Unknown respone type value" << elementText; } break; } case InfoTags::CONTACT: info.setContact(m_xml.readElementText()); break; case InfoTags::WEB: info.setWeb(m_xml.readElementText()); break; case InfoTags::EVENTCODE: info.addEventCode(parseNamedValue()); break; } } else { if (m_xml.isStartElement()) { qWarning() << "unknown element: " << m_xml.name(); } } } } return info; } CAPArea CAPParser::parseArea() { CAPArea area; while (!(m_xml.isEndElement() && m_xml.name() == QLatin1String("area"))) { m_xml.readNext(); if (m_xml.name() == QLatin1String("areaDesc") && !m_xml.isEndElement()) { area.setDescription(m_xml.readElementText()); } else if (m_xml.name() == QLatin1String("geocode") && !m_xml.isEndElement()) { area.addGeoCode(parseNamedValue()); } else if (m_xml.name() == QLatin1String("polygon") && !m_xml.isEndElement()) { area.addPolygon(KWeatherCorePrivate::stringToPolygon(m_xml.readElementText())); } else if (m_xml.name() == QLatin1String("circle") && !m_xml.isEndElement()) { const auto t = m_xml.readElementText(); const auto commaIdx = t.indexOf(QLatin1Char(',')); const auto spaceIdx = t.indexOf(QLatin1Char(' ')); if (commaIdx > 0 && spaceIdx > commaIdx && commaIdx < t.size()) { CAPCircle circle; circle.latitude = QStringView(t).left(commaIdx).toFloat(); circle.longitude = QStringView(t).mid(commaIdx + 1, spaceIdx - commaIdx - 1).toFloat(); circle.radius = QStringView(t).mid(spaceIdx).toFloat(); area.addCircle(std::move(circle)); } } else if (m_xml.name() == QLatin1String("altitude") && !m_xml.isEndElement()) { area.setAltitude(m_xml.readElementText().toFloat()); } else if (m_xml.name() == QLatin1String("ceiling") && !m_xml.isEndElement()) { area.setCeiling(m_xml.readElementText().toFloat()); } else if (m_xml.isStartElement()) { qDebug() << "unknown area element:" << m_xml.name(); } } return area; } CAPNamedValue CAPParser::parseNamedValue() { CAPNamedValue value; const auto elementName = m_xml.name().toString(); while (!m_xml.isEndElement() || m_xml.name() != elementName) { m_xml.readNext(); if (m_xml.isStartElement() && m_xml.name() == QLatin1String("valueName")) { value.name = m_xml.readElementText(); } else if (m_xml.isStartElement() && m_xml.name() == QLatin1String("value")) { value.value = m_xml.readElementText(); } else if (m_xml.isStartElement()) { qDebug() << "unknown named value element:" << m_xml.name(); } } return value; } std::vector CAPParser::parseReferences(const QString &refsString) { std::vector refs; // TODO for Qt 6: use QStringTokenizer const auto refsSplit = refsString.split(QLatin1Char(' '), Qt::SkipEmptyParts); refs.reserve(refsSplit.size()); for (const auto &refString : refsSplit) { const auto refSplit = refString.split(QLatin1Char(',')); if (refSplit.size() != 3) { qDebug() << "failed to parse CAP reference:" << refString; continue; } refs.emplace_back(refSplit.at(0), refSplit.at(1), QDateTime::fromString(refSplit.at(2), Qt::ISODate)); } return refs; } }