#include "ippprinter.h" #include "ippdiscovery.h" #include "mimer.h" #include "papersizes.h" #include "overrider.h" #include "settings.h" Q_DECLARE_METATYPE(QMargins) IppPrinter::IppPrinter() : _worker(this) { QObject::connect(this, &IppPrinter::urlChanged, this, &IppPrinter::onUrlChanged); qRegisterMetaType("QTemporaryFile*"); _worker.moveToThread(&_workerThread); connect(this, &IppPrinter::doDoGetPrinterAttributes, &_worker, &PrinterWorker::getPrinterAttributes); connect(this, &IppPrinter::doGetJobs, &_worker, &PrinterWorker::getJobs); connect(this, &IppPrinter::doCancelJob, &_worker, &PrinterWorker::cancelJob); connect(this, &IppPrinter::doJustUpload, &_worker, &PrinterWorker::justUpload); connect(this, &IppPrinter::doFixupJpeg, &_worker, &PrinterWorker::fixupJpeg); connect(this, &IppPrinter::doConvertPdf, &_worker, &PrinterWorker::convertPdf); connect(this, &IppPrinter::doConvertImage, &_worker, &PrinterWorker::convertImage); connect(this, &IppPrinter::doConvertOfficeDocument, &_worker, &PrinterWorker::convertOfficeDocument); connect(this, &IppPrinter::doConvertPlaintext, &_worker, &PrinterWorker::convertPlaintext); connect(this, &IppPrinter::doGetStrings, &_worker, &PrinterWorker::getStrings); connect(this, &IppPrinter::doGetImage, &_worker, &PrinterWorker::getImage); connect(&_worker, &PrinterWorker::progress, this, &IppPrinter::setProgress); connect(&_worker, &PrinterWorker::busyMessage, this, &IppPrinter::setBusyMessage); connect(&_worker, &PrinterWorker::failed, this, &IppPrinter::convertFailed); qRegisterMetaType(); _workerThread.start(); } IppPrinter::~IppPrinter() { } QJsonObject IppPrinter::opAttrs() { QString name = qgetenv("USER"); QJsonObject o { {"attributes-charset", QJsonObject {{"tag", IppMsg::Charset}, {"value", "utf-8"}}}, {"attributes-natural-language", QJsonObject {{"tag", IppMsg::NaturalLanguage}, {"value", "en-us"}}}, {"printer-uri", QJsonObject {{"tag", IppMsg::Uri}, {"value", _url.toString()}}}, {"requesting-user-name", QJsonObject {{"tag", IppMsg::NameWithoutLanguage}, {"value", name}}}, }; return o; } void IppPrinter::setUrl(QString url_s) { QUrl url = QUrl(url_s); // If not already a good scheme, try to fixup, or give an empty url if(url.scheme() != "ipp" && url.scheme() != "ipps" && url.scheme() != "file") { if(url.scheme() == "") { url = QUrl("ipp://"+url_s); // Why isn't setScheme working? } else if (url.scheme() == "http") { url.setScheme("ipp"); } else if (url.scheme() == "https") { url.setScheme("ipps"); } else { url = QUrl(); } } qDebug() << url_s << url; if(url != _url) { _url = url; emit urlChanged(); } } void IppPrinter::onUrlChanged() { refresh(); } void IppPrinter::refresh() { if(_url.scheme() == "file") { _attrs = QJsonObject(); QFile file(_url.toLocalFile()); if(file.open(QIODevice::ReadOnly)) { QJsonDocument JsonDocument = QJsonDocument::fromJson(file.readAll()); _attrs = JsonDocument.object(); // These won't load anyway...r _attrs.remove("printer-icons"); file.close(); Overrider::instance()->apply(_attrs); } emit attrsChanged(); // MaybeGetStrings(); - for testing fake file-prinetrs with a strings file hosted elsewhere UpdateAdditionalDocumentFormats(); } else { QJsonObject o = opAttrs(); IppMsg msg = IppMsg(o); emit doDoGetPrinterAttributes(msg.encode(IppMsg::GetPrinterAttrs)); } } void IppPrinter::MaybeGetStrings() { if(_attrs.contains("printer-strings-uri") && _strings.empty()) { QUrl url(_attrs["printer-strings-uri"].toObject()["value"].toString()); IppDiscovery::instance()->resolve(url); emit doGetStrings(url); } } void IppPrinter::MaybeGetIcon(bool retry) { if(_attrs.contains("printer-icons") && (_icon.isNull() || retry)) { QUrl url; QJsonArray icons = _attrs["printer-icons"].toObject()["value"].toArray(); if(retry) { // If there were more than one icon, try the last one on the retry if(icons.size() > 1) { url = icons.last().toString(); } } else { if(icons.size() == 3) { // If there are 3 icons, the first will be the 48px one, ignore it url = icons.at(1).toString(); } else { url = icons.at(0).toString(); } } if(!url.isEmpty()) { IppDiscovery::instance()->resolve(url); emit doGetImage(url); } } } void IppPrinter::UpdateAdditionalDocumentFormats() { _additionalDocumentFormats = QStringList(); if(_attrs.contains("printer-device-id")) { QJsonArray supportedMimeTypes = _attrs["document-format-supported"].toObject()["value"].toArray(); QStringList printerDeviceId = _attrs["printer-device-id"].toObject()["value"].toString().split(";"); for (QStringList::iterator it = printerDeviceId.begin(); it != printerDeviceId.end(); it++) { QStringList kv = it->split(":"); if(kv.length()==2 && (kv[0]=="CMD" || kv[0]=="COMMAND SET")) { if(!supportedMimeTypes.contains(Mimer::PDF) && kv[1].contains("PDF")) { _additionalDocumentFormats.append(Mimer::PDF); } if(!supportedMimeTypes.contains(Mimer::Postscript) && kv[1].contains("Postscript", Qt::CaseInsensitive)) { _additionalDocumentFormats.append(Mimer::Postscript); } } } qDebug() << "additionalDocumentFormats" << _additionalDocumentFormats; } emit additionalDocumentFormatsChanged(); } void IppPrinter::getPrinterAttributesFinished(CURLcode res, Bytestream data) { qDebug() << res; _attrs = QJsonObject(); if(res == CURLE_OK) { try { IppMsg resp(data); qDebug() << resp.getStatus() << resp.getOpAttrs() << resp.getPrinterAttrs(); _attrs = resp.getPrinterAttrs(); Overrider::instance()->apply(_attrs); } catch(const std::exception& e) { qDebug() << e.what(); } } emit attrsChanged(); MaybeGetStrings(); MaybeGetIcon(); UpdateAdditionalDocumentFormats(); } void IppPrinter::printRequestFinished(CURLcode res, Bytestream data) { _jobAttrs = QJsonObject(); bool status = false; if(res == CURLE_OK) { try { IppMsg resp(data); qDebug() << resp.getStatus() << resp.getOpAttrs() << resp.getJobAttrs(); _jobAttrs = resp.getJobAttrs()[0].toObject(); if(resp.getOpAttrs().keys().contains("status-message")) { // Sometimes there are no response attributes at all, // maybe status-message from the operation attributes is somewhat useful _jobAttrs["status-message"] = resp.getOpAttrs()["status-message"]; } status = resp.getStatus() <= 0xff; } catch(const std::exception& e) { qDebug() << e.what(); } } else { _jobAttrs.insert("job-state-message", QJsonObject {{"tag", IppMsg::TextWithoutLanguage}, {"value", "Network error"}}); } emit jobAttrsChanged(); emit jobFinished(status); } void IppPrinter::getJobsRequestFinished(CURLcode res, Bytestream data) { if(res == CURLE_OK) { try { IppMsg resp(data); qDebug() << resp.getStatus() << resp.getOpAttrs() << resp.getJobAttrs(); _jobs = resp.getJobAttrs(); emit jobsChanged(); } catch(const std::exception& e) { qDebug() << e.what(); } } } void IppPrinter::cancelJobFinished(CURLcode res, Bytestream data) { bool status = false; if(res == CURLE_OK) { try { IppMsg resp(data); qDebug() << resp.getStatus() << resp.getOpAttrs() << resp.getJobAttrs(); status = resp.getStatus() <= 0xff; } catch(const std::exception& e) { qDebug() << e.what(); } } emit cancelStatus(status); getJobs(); } void IppPrinter::getStringsFinished(CURLcode res, Bytestream data) { qDebug() << res << data.size(); if(res == CURLE_OK) { QByteArray ba((char*)data.raw(), data.size()); // "media-type.com.epson-coated" = "Epson Photo Quality Ink Jet"; QRegularExpression re("^\\\"(.*)\\\"\\s*=\\s*\\\"(.*)\\\";"); QList bl = ba.split('\n'); foreach(QByteArray l, bl) { QRegularExpressionMatch match = re.match(l); if(match.hasMatch()) { _strings[match.captured(1)] = match.captured(2); } } } } void IppPrinter::getImageFinished(CURLcode res, Bytestream data) { qDebug() << res << data.size(); if(res == CURLE_OK) { QImage tmp; if(tmp.loadFromData(data.raw(), data.size(), "PNG")) { _icon = tmp; qDebug() << "image loaded" << _icon; emit iconChanged(); if(tmp.size().width() < 128) { MaybeGetIcon(true); } } } } void IppPrinter::convertFailed(QString message) { _jobAttrs = QJsonObject(); _jobAttrs.insert("job-state-message", QJsonObject {{"tag", IppMsg::TextWithoutLanguage}, {"value", message}}); emit jobAttrsChanged(); emit jobFinished(false); } QString firstMatch(QJsonArray supported, QStringList wanted) { for(QStringList::iterator it = wanted.begin(); it != wanted.end(); it++) { if(supported.contains(*it)) { return *it; } } return ""; } QString targetFormatIfAuto(QString documentFormat, QString mimeType, QJsonArray supportedMimeTypes) { if(documentFormat == Mimer::OctetStream) { if(mimeType == Mimer::PDF || mimeType == Mimer::Plaintext) { return firstMatch(supportedMimeTypes, {Mimer::PDF, Mimer::Postscript, Mimer::PWG, Mimer::URF }); } else if(mimeType == Mimer::Postscript) { return firstMatch(supportedMimeTypes, {Mimer::Postscript}); } else if(Mimer::isOffice(mimeType)) { return firstMatch(supportedMimeTypes, {Mimer::PDF, Mimer::Postscript, Mimer::PWG, Mimer::URF }); } else if(Mimer::isImage(mimeType)) { QStringList ImageFormatPrioList {Mimer::PNG, Mimer::PWG, Mimer::URF, Mimer::PDF, Mimer::Postscript, Mimer::JPEG}; if(mimeType == Mimer::JPEG) { // Prioritize transferring JPEG as JPEG, as it will not be transcoded // Normally, it is the last choice (as the others are lossless) ImageFormatPrioList.prepend(mimeType); } return firstMatch(supportedMimeTypes, ImageFormatPrioList); } return documentFormat; } return documentFormat; } void IppPrinter::adjustRasterSettings(QString documentFormat, QJsonObject& jobAttrs, quint32& HwResX, quint32& HwResY, bool& BackHFlip, bool& BackVFlip) { if(documentFormat != Mimer::PWG && documentFormat != Mimer::URF) { return; } //TODO? jobAttrs.remove("printer-resolution"); if(documentFormat == Mimer::PWG) { quint32 diff = std::numeric_limits::max(); quint32 AdjustedHwResX = HwResX; quint32 AdjustedHwResY = HwResY; foreach(QJsonValue res, _attrs["pwg-raster-document-resolution-supported"].toObject()["value"].toArray()) { QJsonObject resObj = res.toObject(); if(resObj["units"] != 3) { continue; } quint32 tmpDiff = std::abs(int(HwResX-resObj["x"].toInt())) + std::abs(int(HwResY-resObj["y"].toInt())); if(tmpDiff < diff) { diff = tmpDiff; AdjustedHwResX = resObj["x"].toInt(); AdjustedHwResY = resObj["y"].toInt(); } } HwResX = AdjustedHwResX; HwResY = AdjustedHwResY; } if(documentFormat == Mimer::URF) { // Ensure symmetric resolution for URF HwResX = HwResY = std::min(HwResX, HwResY); quint32 diff = std::numeric_limits::max(); quint32 AdjustedHwRes = HwResX; QJsonArray urfSupported = _attrs["urf-supported"].toObject()["value"].toArray(); foreach(QJsonValue us, urfSupported) { if(us.toString().startsWith("RS")) { //RS300[-600] QStringList resolutions = us.toString().mid(2).split("-"); foreach(QString res, resolutions) { int intRes = res.toInt(); quint32 tmpDiff = std::abs(int(HwResX - intRes)); if(tmpDiff < diff) { diff = tmpDiff; AdjustedHwRes = intRes; } } HwResX = HwResY = AdjustedHwRes; break; } } } QString Sides = getAttrOrDefault(jobAttrs, "sides").toString(); if(Sides != "" && Sides != "one-sided") { if(documentFormat == Mimer::PWG) { QString DocumentSheetBack = _attrs["pwg-raster-document-sheet-back"].toObject()["value"].toString(); if(Sides=="two-sided-long-edge") { if(DocumentSheetBack=="flipped") { BackVFlip=true; } else if(DocumentSheetBack=="rotated") { BackHFlip=true; BackVFlip=true; } } else if(Sides=="two-sided-short-edge") { if(DocumentSheetBack=="flipped") { BackHFlip=true; } else if(DocumentSheetBack=="manual-tumble") { BackHFlip=true; BackVFlip=true; } } } else if(documentFormat == Mimer::URF) { QJsonArray URfSupported = _attrs["urf-supported"].toObject()["value"].toArray(); if(Sides=="two-sided-long-edge") { if(URfSupported.contains("DM2")) { BackVFlip=true; } else if(URfSupported.contains("DM3")) { BackHFlip=true; BackVFlip=true; } } else if(Sides=="two-sided-short-edge") { if(URfSupported.contains("DM2")) { BackHFlip=true; } else if(URfSupported.contains("DM4")) { BackHFlip=true; BackVFlip=true; } } } } } void IppPrinter::print(QJsonObject jobAttrs, QString filename) { qDebug() << "printing" << filename << jobAttrs; _progress = ""; emit progressChanged(); PrintParameters Params; QFileInfo fileinfo(filename); if(!fileinfo.exists()) { emit convertFailed(tr("Failed to open file")); return; } Mimer* mimer = Mimer::instance(); QString mimeType = mimer->get_type(filename); QJsonArray supportedMimeTypes = _attrs["document-format-supported"].toObject()["value"].toArray(); for(QStringList::iterator it = _additionalDocumentFormats.begin(); it != _additionalDocumentFormats.end(); it++) { supportedMimeTypes.append(*it); } qDebug() << supportedMimeTypes << supportedMimeTypes.contains(mimeType); QJsonObject o = opAttrs(); o.insert("job-name", QJsonObject {{"tag", IppMsg::NameWithoutLanguage}, {"value", fileinfo.fileName()}}); Params.paperSizeName = getAttrOrDefault(jobAttrs, "media").toString(Params.paperSizeName.c_str()).toStdString(); QString targetFormat = getAttrOrDefault(jobAttrs, "document-format").toString(); qDebug() << "target format:" << targetFormat; QMargins margins(getAttrOrDefault(jobAttrs, "media-left-margin", "media-col").toInt(), getAttrOrDefault(jobAttrs, "media-top-margin", "media-col").toInt(), getAttrOrDefault(jobAttrs, "media-right-margin", "media-col").toInt(), getAttrOrDefault(jobAttrs, "media-bottom-margin", "media-col").toInt()); // Only keep margin setting for JPEG - but only attemt to remove it if media-col exists if(!(mimeType == Mimer::JPEG && targetFormat == Mimer::JPEG) && jobAttrs.contains("media-col")) { QJsonObject MediaCol = jobAttrs["media-col"].toObject(); QJsonObject MediaColValue = MediaCol["value"].toObject(); MediaColValue.remove("media-left-margin"); MediaColValue.remove("media-top-margin"); MediaColValue.remove("media-right-margin"); MediaColValue.remove("media-bottom-margin"); if(!MediaColValue.empty()) { MediaCol["value"] = MediaColValue; jobAttrs["media-col"] = MediaCol; } else { jobAttrs.remove("media-col"); } } if(jobAttrs.contains("media-col") && jobAttrs.contains("media")) { qDebug() << "moving media to media-col" << Params.paperSizeName.c_str(); if(!PaperSizes.contains(Params.paperSizeName.c_str())) { emit convertFailed(tr("Unsupported paper size")); return; } int x = PaperSizes[Params.paperSizeName.c_str()].width()*100; int y = PaperSizes[Params.paperSizeName.c_str()].height()*100; QJsonObject Dimensions = {{"tag", IppMsg::BeginCollection}, {"value", QJsonObject { {"x-dimension", QJsonObject{{"tag", IppMsg::Integer}, {"value", x}}}, {"y-dimension", QJsonObject{{"tag", IppMsg::Integer}, {"value", y}}} } }}; // TODO: make a setter function QJsonObject MediaCol = jobAttrs["media-col"].toObject(); QJsonObject MediaColValue = MediaCol["value"].toObject(); MediaColValue["media-size"] = Dimensions; MediaCol["value"] = MediaColValue; MediaCol["tag"] = IppMsg::BeginCollection; jobAttrs["media-col"] = MediaCol; jobAttrs.remove("media"); } // document-format goes in the op-attrs and not the job-attrs o.insert("document-format", QJsonObject {{"tag", IppMsg::MimeMediaType}, {"value", targetFormat}}); jobAttrs.remove("document-format"); targetFormat = targetFormatIfAuto(targetFormat, mimeType, supportedMimeTypes); qDebug() << "adjusted target format:" << targetFormat; if(targetFormat == "" || targetFormat == Mimer::OctetStream) { emit convertFailed(tr("Unknown document format")); return; } if(targetFormat == Mimer::PDF) { Params.format = PrintParameters::PDF; } else if(targetFormat == Mimer::Postscript) { Params.format = PrintParameters::Postscript; } else if(targetFormat == Mimer::PWG) { Params.format = PrintParameters::PWG; } else if(targetFormat == Mimer::URF) { Params.format = PrintParameters::URF; } QSizeF size = PaperSizes[Params.paperSizeName.c_str()]; Params.paperSizeUnits = PrintParameters::Millimeters; Params.paperSizeW = size.width(); Params.paperSizeH = size.height(); qDebug() << "Printing job" << o << jobAttrs; QJsonValue PrinterResolutionRef = getAttrOrDefault(jobAttrs, "printer-resolution"); quint32 HwResX = PrinterResolutionRef.toObject()["x"].toInt(300); quint32 HwResY = PrinterResolutionRef.toObject()["y"].toInt(300); bool BackHFlip = false; bool BackVFlip = false; adjustRasterSettings(targetFormat, jobAttrs, HwResX, HwResY, BackHFlip, BackVFlip); Params.quality = getAttrOrDefault(jobAttrs, "print-quality").toInt(); QString PrintColorMode = getAttrOrDefault(jobAttrs, "print-color-mode").toString(); Params.colors = PrintColorMode.contains("color") ? 3 : PrintColorMode.contains("monochrome") ? 1 : Params.colors; if(jobAttrs.contains("page-ranges")) { QJsonObject PageRanges = getAttrOrDefault(jobAttrs, "page-ranges").toObject(); Params.fromPage = PageRanges["low"].toInt(); Params.toPage = PageRanges["high"].toInt(); // Effected locally, unless it is Postscript which we cant't render if(targetFormat != Mimer::Postscript) { jobAttrs.remove("page-ranges"); } } qDebug() << "Final op attributes:" << o; qDebug() << "Final job attributes:" << jobAttrs; IppMsg job = mk_msg(o, jobAttrs); Bytestream contents = job.encode(IppMsg::PrintJob); setBusyMessage(tr("Preparing")); if((mimeType == targetFormat) && (targetFormat == Mimer::Postscript)) { // Can't process Postscript emit doJustUpload(filename, contents); } else if((mimeType == targetFormat) && (targetFormat == Mimer::JPEG)) { // Just make the jpeg baseline-encoded, don't resize locally emit doFixupJpeg(filename, contents); } else { QString Sides = getAttrOrDefault(jobAttrs, "sides").toString(); if(Sides=="two-sided-long-edge") { Params.duplex = true; } else if(Sides=="two-sided-short-edge") { Params.duplex = true; Params.tumble = true; } if(mimeType == Mimer::PDF) { emit doConvertPdf(filename, contents, Params); } else if(mimeType == Mimer::Plaintext) { emit doConvertPlaintext(filename, contents, Params); } else if (Mimer::isImage(mimeType)) { emit doConvertImage(filename, contents, Params, targetFormat, margins); } else if(Mimer::isOffice(mimeType)) { emit doConvertOfficeDocument(filename, contents, Params); } else { emit convertFailed(tr("Cannot convert this file format")); return; } } return; } bool IppPrinter::getJobs() { qDebug() << "getting jobs"; QJsonObject o = opAttrs(); o.insert("requested-attributes", QJsonObject {{"tag", IppMsg::Keyword}, {"value", "all"}}); IppMsg job = IppMsg(o, QJsonObject()); emit doGetJobs(job.encode(IppMsg::GetJobs)); return true; } bool IppPrinter::cancelJob(qint32 jobId) { qDebug() << "cancelling jobs"; QJsonObject o = opAttrs(); o.insert("job-id", QJsonObject {{"tag", IppMsg::Integer}, {"value", jobId}}); IppMsg job = IppMsg(o, QJsonObject()); emit doCancelJob(job.encode(IppMsg::CancelJob)); return true; } bool IppPrinter::correctSuffix() { foreach(QJsonValue u, _attrs["printer-uri-supported"].toObject()["value"].toArray()) { QUrl url(u.toString()); if(url.path() == _url.path()) { return true; } } return false; } QStringList IppPrinter::suffixes() { QStringList res; foreach(QJsonValue u, _attrs["printer-uri-supported"].toObject()["value"].toArray()) { QUrl url(u.toString()); if(!res.contains(url.path())) { res.append(url.path()); } } res.sort(); return res; } QUrl IppPrinter::httpUrl() { qDebug() << _url; QUrl url = _url; if(url.scheme() == "ipps") { url.setScheme("https"); if(url.port() == -1) { url.setPort(443); } } else { url.setScheme("http"); if(url.port() == -1) { url.setPort(631); } } return url; } void IppPrinter::setBusyMessage(QString msg) { _busyMessage = msg; emit busyMessageChanged(); } void IppPrinter::setProgress(qint64 sent, qint64 total) { if(total == 0) return; _progress = QString::number(100*sent/total); _progress += "%"; emit progressChanged(); } QJsonValue IppPrinter::getAttrOrDefault(QJsonObject jobAttrs, QString name, QString subkey) { if(subkey == "") { if(jobAttrs.contains(name)) { return jobAttrs[name].toObject()["value"]; } else { return _attrs[name+"-default"].toObject()["value"]; } } else { QJsonObject subObj = jobAttrs[subkey].toObject()["value"].toObject(); if(subObj.contains(name)) { return subObj[name].toObject()["value"]; } else { return _attrs[name+"-default"].toObject()["value"]; } } } IppMsg IppPrinter::mk_msg(QJsonObject opAttrs, QJsonObject jobAttrs) { if(_attrs.contains("ipp-versions-supported") && _attrs["ipp-versions-supported"].toObject()["value"].toArray().contains("2.0")) { qDebug() << "TWO-POINT-ZERO"; return IppMsg(opAttrs, jobAttrs, 2, 0); } return IppMsg(opAttrs, jobAttrs); }