/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /** * This file contains the implementation of the service * com.sun.star.document.DocumentProperties. * This service enables access to the meta-data stored in documents. * Currently, this service only handles documents in ODF format. * * The implementation uses an XML DOM to store the properties. * This approach was taken because it allows for preserving arbitrary XML data * in loaded documents, which will be stored unmodified when saving the * document again. * * Upon access, some properties are directly read from and updated in the DOM. * Exception: it seems impossible to get notified upon addition of a property * to a com.sun.star.beans.PropertyBag, which is used for storing user-defined * properties; because of this, user-defined properties are updated in the * XML DOM only when storing the document. * Exception 2: when setting certain properties which correspond to attributes * in the XML DOM, we want to remove the corresponding XML element. Detecting * this condition can get messy, so we store all such properties as members, * and update the DOM tree only when storing the document (in * updateUserDefinedAndAttributes). * */ /// anonymous implementation namespace namespace { /// a list of attribute-lists, where attribute means name and content typedef std::vector > > AttrVector; typedef ::cppu::WeakComponentImplHelper< css::lang::XServiceInfo, css::document::XDocumentProperties, css::lang::XInitialization, css::util::XCloneable, css::util::XModifiable, css::xml::sax::XSAXSerializable> SfxDocumentMetaData_Base; class SfxDocumentMetaData: private ::cppu::BaseMutex, public SfxDocumentMetaData_Base { public: explicit SfxDocumentMetaData( css::uno::Reference< css::uno::XComponentContext > const & context); SfxDocumentMetaData(const SfxDocumentMetaData&) = delete; SfxDocumentMetaData& operator=(const SfxDocumentMetaData&) = delete; // css::lang::XServiceInfo: virtual OUString SAL_CALL getImplementationName() override; virtual sal_Bool SAL_CALL supportsService( const OUString & ServiceName) override; virtual css::uno::Sequence< OUString > SAL_CALL getSupportedServiceNames() override; // css::lang::XComponent: virtual void SAL_CALL dispose() override; // css::document::XDocumentProperties: virtual OUString SAL_CALL getAuthor() override; virtual void SAL_CALL setAuthor(const OUString & the_value) override; virtual OUString SAL_CALL getGenerator() override; virtual void SAL_CALL setGenerator(const OUString & the_value) override; virtual css::util::DateTime SAL_CALL getCreationDate() override; virtual void SAL_CALL setCreationDate(const css::util::DateTime & the_value) override; virtual OUString SAL_CALL getTitle() override; virtual void SAL_CALL setTitle(const OUString & the_value) override; virtual OUString SAL_CALL getSubject() override; virtual void SAL_CALL setSubject(const OUString & the_value) override; virtual OUString SAL_CALL getDescription() override; virtual void SAL_CALL setDescription(const OUString & the_value) override; virtual css::uno::Sequence< OUString > SAL_CALL getKeywords() override; virtual void SAL_CALL setKeywords( const css::uno::Sequence< OUString > & the_value) override; virtual css::lang::Locale SAL_CALL getLanguage() override; virtual void SAL_CALL setLanguage(const css::lang::Locale & the_value) override; virtual OUString SAL_CALL getModifiedBy() override; virtual void SAL_CALL setModifiedBy(const OUString & the_value) override; virtual css::util::DateTime SAL_CALL getModificationDate() override; virtual void SAL_CALL setModificationDate( const css::util::DateTime & the_value) override; virtual OUString SAL_CALL getPrintedBy() override; virtual void SAL_CALL setPrintedBy(const OUString & the_value) override; virtual css::util::DateTime SAL_CALL getPrintDate() override; virtual void SAL_CALL setPrintDate(const css::util::DateTime & the_value) override; virtual OUString SAL_CALL getTemplateName() override; virtual void SAL_CALL setTemplateName(const OUString & the_value) override; virtual OUString SAL_CALL getTemplateURL() override; virtual void SAL_CALL setTemplateURL(const OUString & the_value) override; virtual css::util::DateTime SAL_CALL getTemplateDate() override; virtual void SAL_CALL setTemplateDate(const css::util::DateTime & the_value) override; virtual OUString SAL_CALL getAutoloadURL() override; virtual void SAL_CALL setAutoloadURL(const OUString & the_value) override; virtual ::sal_Int32 SAL_CALL getAutoloadSecs() override; virtual void SAL_CALL setAutoloadSecs(::sal_Int32 the_value) override; virtual OUString SAL_CALL getDefaultTarget() override; virtual void SAL_CALL setDefaultTarget(const OUString & the_value) override; virtual css::uno::Sequence< css::beans::NamedValue > SAL_CALL getDocumentStatistics() override; virtual void SAL_CALL setDocumentStatistics( const css::uno::Sequence< css::beans::NamedValue > & the_value) override; virtual ::sal_Int16 SAL_CALL getEditingCycles() override; virtual void SAL_CALL setEditingCycles(::sal_Int16 the_value) override; virtual ::sal_Int32 SAL_CALL getEditingDuration() override; virtual void SAL_CALL setEditingDuration(::sal_Int32 the_value) override; virtual void SAL_CALL resetUserData(const OUString & the_value) override; virtual css::uno::Reference< css::beans::XPropertyContainer > SAL_CALL getUserDefinedProperties() override; virtual void SAL_CALL loadFromStorage( const css::uno::Reference< css::embed::XStorage > & Storage, const css::uno::Sequence< css::beans::PropertyValue > & Medium) override; virtual void SAL_CALL loadFromMedium(const OUString & URL, const css::uno::Sequence< css::beans::PropertyValue > & Medium) override; virtual void SAL_CALL storeToStorage( const css::uno::Reference< css::embed::XStorage > & Storage, const css::uno::Sequence< css::beans::PropertyValue > & Medium) override; virtual void SAL_CALL storeToMedium(const OUString & URL, const css::uno::Sequence< css::beans::PropertyValue > & Medium) override; // css::lang::XInitialization: virtual void SAL_CALL initialize( const css::uno::Sequence< css::uno::Any > & aArguments) override; // css::util::XCloneable: virtual css::uno::Reference SAL_CALL createClone() override; // css::util::XModifiable: virtual sal_Bool SAL_CALL isModified( ) override; virtual void SAL_CALL setModified( sal_Bool bModified ) override; // css::util::XModifyBroadcaster: virtual void SAL_CALL addModifyListener( const css::uno::Reference< css::util::XModifyListener > & xListener) override; virtual void SAL_CALL removeModifyListener( const css::uno::Reference< css::util::XModifyListener > & xListener) override; // css::xml::sax::XSAXSerializable virtual void SAL_CALL serialize( const css::uno::Reference& i_xHandler, const css::uno::Sequence< css::beans::StringPair >& i_rNamespaces) override; protected: virtual ~SfxDocumentMetaData() override {} virtual SfxDocumentMetaData* createMe( css::uno::Reference< css::uno::XComponentContext > const & context ) { return new SfxDocumentMetaData( context ); }; const css::uno::Reference< css::uno::XComponentContext > m_xContext; /// for notification ::comphelper::OInterfaceContainerHelper2 m_NotifyListeners; /// flag: false means not initialized yet, or disposed bool m_isInitialized; /// flag bool m_isModified; /// meta-data DOM tree css::uno::Reference< css::xml::dom::XDocument > m_xDoc; /// meta-data super node in the meta-data DOM tree css::uno::Reference< css::xml::dom::XNode> m_xParent; /// standard meta data (single occurrence) std::map< OUString, css::uno::Reference > m_meta; /// standard meta data (multiple occurrences) std::map< OUString, std::vector > > m_metaList; /// user-defined meta data (meta:user-defined) @ATTENTION may be null! css::uno::Reference m_xUserDefined; // now for some meta-data attributes; these are not updated directly in the // DOM because updates (detecting "empty" elements) would be quite messy OUString m_TemplateName; OUString m_TemplateURL; css::util::DateTime m_TemplateDate; OUString m_AutoloadURL; sal_Int32 m_AutoloadSecs; OUString m_DefaultTarget; /// check if we are initialized properly void checkInit() const; /// initialize state from given DOM tree void init(const css::uno::Reference& i_xDom); /// update element in DOM tree void updateElement(const char *i_name, std::vector >* i_pAttrs = nullptr); /// update user-defined meta data and attributes in DOM tree void updateUserDefinedAndAttributes(); /// create empty DOM tree (XDocument) css::uno::Reference createDOM() const; /// extract base URL (necessary for converting relative links) css::uno::Reference getURLProperties( const css::uno::Sequence & i_rMedium) const; /// get text of standard meta data element OUString getMetaText(const char* i_name) const; /// set text of standard meta data element iff not equal to existing text bool setMetaText(const char* i_name, const OUString & i_rValue); /// set text of standard meta data element iff not equal to existing text void setMetaTextAndNotify(const char* i_name, const OUString & i_rValue); /// get text of standard meta data element's attribute OUString getMetaAttr(const char* i_name, const char* i_attr) const; /// get text of a list of standard meta data elements (multiple occ.) css::uno::Sequence< OUString > getMetaList( const char* i_name) const; /// set text of a list of standard meta data elements (multiple occ.) bool setMetaList(const char* i_name, const css::uno::Sequence< OUString > & i_rValue, AttrVector const*); void createUserDefined(); }; typedef ::cppu::ImplInheritanceHelper< SfxDocumentMetaData, css::document::XCompatWriterDocProperties > CompatWriterDocPropsImpl_BASE; class CompatWriterDocPropsImpl : public CompatWriterDocPropsImpl_BASE { OUString msManager; OUString msCategory; OUString msCompany; protected: virtual SfxDocumentMetaData* createMe( css::uno::Reference< css::uno::XComponentContext > const & context ) override { return new CompatWriterDocPropsImpl( context ); }; public: explicit CompatWriterDocPropsImpl( css::uno::Reference< css::uno::XComponentContext > const & context) : CompatWriterDocPropsImpl_BASE( context ) {} // XCompatWriterDocPropsImpl virtual OUString SAL_CALL getManager() override { return msManager; } virtual void SAL_CALL setManager( const OUString& _manager ) override { msManager = _manager; } virtual OUString SAL_CALL getCategory() override { return msCategory; } virtual void SAL_CALL setCategory( const OUString& _category ) override { msCategory = _category; } virtual OUString SAL_CALL getCompany() override { return msCompany; } virtual void SAL_CALL setCompany( const OUString& _company ) override { msCompany = _company; } // XServiceInfo virtual OUString SAL_CALL getImplementationName( ) override { return "CompatWriterDocPropsImpl"; } virtual sal_Bool SAL_CALL supportsService( const OUString& ServiceName ) override { return cppu::supportsService(this, ServiceName); } virtual css::uno::Sequence< OUString > SAL_CALL getSupportedServiceNames( ) override { css::uno::Sequence aServiceNames { "com.sun.star.writer.DocumentProperties" }; return aServiceNames; } }; // NB: keep these two arrays in sync! const char* s_stdStatAttrs[] = { "meta:page-count", "meta:table-count", "meta:draw-count", "meta:image-count", "meta:object-count", "meta:ole-object-count", "meta:paragraph-count", "meta:word-count", "meta:character-count", "meta:row-count", "meta:frame-count", "meta:sentence-count", "meta:syllable-count", "meta:non-whitespace-character-count", "meta:cell-count", nullptr }; // NB: keep these two arrays in sync! const char* s_stdStats[] = { "PageCount", "TableCount", "DrawCount", "ImageCount", "ObjectCount", "OLEObjectCount", "ParagraphCount", "WordCount", "CharacterCount", "RowCount", "FrameCount", "SentenceCount", "SyllableCount", "NonWhitespaceCharacterCount", "CellCount", nullptr }; const char* s_stdMeta[] = { "meta:generator", // string "dc:title", // string "dc:description", // string "dc:subject", // string "meta:initial-creator", // string "dc:creator", // string "meta:printed-by", // string "meta:creation-date", // dateTime "dc:date", // dateTime "meta:print-date", // dateTime "meta:template", // XLink "meta:auto-reload", "meta:hyperlink-behaviour", "dc:language", // language "meta:editing-cycles", // nonNegativeInteger "meta:editing-duration", // duration "meta:document-statistic", // ... // note: statistic is singular, no s! nullptr }; const char* s_stdMetaList[] = { "meta:keyword", // string* "meta:user-defined", // ...* nullptr }; const char s_nsXLink[] = "http://www.w3.org/1999/xlink"; const char s_nsDC[] = "http://purl.org/dc/elements/1.1/"; const char s_nsODF[] = "urn:oasis:names:tc:opendocument:xmlns:office:1.0"; const char s_nsODFMeta[] = "urn:oasis:names:tc:opendocument:xmlns:meta:1.0"; // const char* s_nsOOo = "http://openoffice.org/2004/office"; // not used (yet?) static const char s_meta [] = "meta.xml"; bool isValidDate(const css::util::Date & i_rDate) { return i_rDate.Month > 0; } bool isValidDateTime(const css::util::DateTime & i_rDateTime) { return i_rDateTime.Month > 0; } std::pair< OUString, OUString > getQualifier(const char* i_name) { OUString nm = OUString::createFromAscii(i_name); sal_Int32 ix = nm.indexOf(u':'); if (ix == -1) { return std::make_pair(OUString(), nm); } else { return std::make_pair(nm.copy(0,ix), nm.copy(ix+1)); } } // get namespace for standard qualified names // NB: only call this with statically known strings! OUString getNameSpace(const char* i_qname) throw () { assert(i_qname); const char * ns = ""; OUString n = getQualifier(i_qname).first; if ( n == "xlink" ) ns = s_nsXLink; if ( n == "dc" ) ns = s_nsDC; if ( n == "office" ) ns = s_nsODF; if ( n == "meta" ) ns = s_nsODFMeta; assert(*ns); return OUString::createFromAscii(ns); } bool textToDateOrDateTime(css::util::Date & io_rd, css::util::DateTime & io_rdt, bool & o_rIsDateTime, std::optional & o_rTimeZone, const OUString& i_text) throw () { if (::sax::Converter::parseDateOrDateTime( &io_rd, io_rdt, o_rIsDateTime, &o_rTimeZone, i_text)) { return true; } else { SAL_WARN_IF(!i_text.isEmpty(), "sfx.doc", "Invalid date: " << i_text); return false; } } // convert string to date/time bool textToDateTime(css::util::DateTime & io_rdt, const OUString& i_text) throw () { if (::sax::Converter::parseDateTime(io_rdt, i_text)) { return true; } else { SAL_WARN_IF(!i_text.isEmpty(), "sfx.doc", "Invalid date: " << i_text); return false; } } // convert string to date/time with default return value css::util::DateTime textToDateTimeDefault(const OUString& i_text) throw () { css::util::DateTime dt; static_cast (textToDateTime(dt, i_text)); // on conversion error: return default value (unchanged) return dt; } // convert date to string OUString dateToText(css::util::Date const& i_rd, sal_Int16 const*const pTimeZone) throw () { if (isValidDate(i_rd)) { OUStringBuffer buf; ::sax::Converter::convertDate(buf, i_rd, pTimeZone); return buf.makeStringAndClear(); } else { return OUString(); } } // convert date/time to string OUString dateTimeToText(css::util::DateTime const& i_rdt, sal_Int16 const*const pTimeZone = nullptr) throw () { if (isValidDateTime(i_rdt)) { OUStringBuffer buf(32); ::sax::Converter::convertDateTime(buf, i_rdt, pTimeZone, true); return buf.makeStringAndClear(); } else { return OUString(); } } // convert string to duration bool textToDuration(css::util::Duration& io_rDur, OUString const& i_rText) throw () { if (::sax::Converter::convertDuration(io_rDur, i_rText)) { return true; } else { SAL_WARN_IF(!i_rText.isEmpty(), "sfx.doc", "Invalid duration: " << i_rText); return false; } } sal_Int32 textToDuration(OUString const& i_rText) throw () { css::util::Duration d; if (textToDuration(d, i_rText)) { // #i107372#: approximate years/months const sal_Int32 days( (d.Years * 365) + (d.Months * 30) + d.Days ); return (days * (24*3600)) + (d.Hours * 3600) + (d.Minutes * 60) + d.Seconds; } else { return 0; // default } } // convert duration to string OUString durationToText(css::util::Duration const& i_rDur) throw () { OUStringBuffer buf; ::sax::Converter::convertDuration(buf, i_rDur); return buf.makeStringAndClear(); } // convert duration to string OUString durationToText(sal_Int32 i_value) throw () { css::util::Duration ud; ud.Days = static_cast(i_value / (24 * 3600)); ud.Hours = static_cast((i_value % (24 * 3600)) / 3600); ud.Minutes = static_cast((i_value % 3600) / 60); ud.Seconds = static_cast(i_value % 60); ud.NanoSeconds = 0; return durationToText(ud); } // extract base URL (necessary for converting relative links) css::uno::Reference< css::beans::XPropertySet > SfxDocumentMetaData::getURLProperties( const css::uno::Sequence< css::beans::PropertyValue > & i_rMedium) const { css::uno::Reference< css::beans::XPropertyBag> xPropArg = css::beans::PropertyBag::createDefault( m_xContext ); try { css::uno::Any baseUri; for (const auto& rProp : i_rMedium) { if (rProp.Name == "DocumentBaseURL") { baseUri = rProp.Value; } else if (rProp.Name == "URL") { if (!baseUri.hasValue()) { baseUri = rProp.Value; } } else if (rProp.Name == "HierarchicalDocumentName") { xPropArg->addProperty( "StreamRelPath", css::beans::PropertyAttribute::MAYBEVOID, rProp.Value); } } if (baseUri.hasValue()) { xPropArg->addProperty( "BaseURI", css::beans::PropertyAttribute::MAYBEVOID, baseUri); } xPropArg->addProperty("StreamName", css::beans::PropertyAttribute::MAYBEVOID, css::uno::makeAny(OUString(s_meta))); } catch (const css::uno::Exception &) { // ignore } return css::uno::Reference< css::beans::XPropertySet>(xPropArg, css::uno::UNO_QUERY_THROW); } // return the text of the (hopefully unique, i.e., normalize first!) text // node _below_ the given node /// @throws css::uno::RuntimeException OUString getNodeText(const css::uno::Reference& i_xNode) { if (!i_xNode.is()) throw css::uno::RuntimeException("SfxDocumentMetaData::getNodeText: argument is null", i_xNode); for (css::uno::Reference c = i_xNode->getFirstChild(); c.is(); c = c->getNextSibling()) { if (c->getNodeType() == css::xml::dom::NodeType_TEXT_NODE) { try { return c->getNodeValue(); } catch (const css::xml::dom::DOMException &) { // too big? return OUString(); } } } return OUString(); } OUString SfxDocumentMetaData::getMetaText(const char* i_name) const // throw (css::uno::RuntimeException) { checkInit(); const OUString name( OUString::createFromAscii(i_name) ); assert(m_meta.find(name) != m_meta.end()); css::uno::Reference xNode = m_meta.find(name)->second; return (xNode.is()) ? getNodeText(xNode) : OUString(); } bool SfxDocumentMetaData::setMetaText(const char* i_name, const OUString & i_rValue) // throw (css::uno::RuntimeException) { checkInit(); const OUString name( OUString::createFromAscii(i_name) ); assert(m_meta.find(name) != m_meta.end()); css::uno::Reference xNode = m_meta.find(name)->second; try { if (i_rValue.isEmpty()) { if (xNode.is()) { // delete m_xParent->removeChild(xNode); xNode.clear(); m_meta[name] = xNode; return true; } else { return false; } } else { if (xNode.is()) { // update for (css::uno::Reference c = xNode->getFirstChild(); c.is(); c = c->getNextSibling()) { if (c->getNodeType() == css::xml::dom::NodeType_TEXT_NODE) { if (c->getNodeValue() != i_rValue) { c->setNodeValue(i_rValue); return true; } else { return false; } } } } else { // insert xNode.set(m_xDoc->createElementNS(getNameSpace(i_name), name), css::uno::UNO_QUERY_THROW); m_xParent->appendChild(xNode); m_meta[name] = xNode; } css::uno::Reference xTextNode( m_xDoc->createTextNode(i_rValue), css::uno::UNO_QUERY_THROW); xNode->appendChild(xTextNode); return true; } } catch (const css::xml::dom::DOMException &) { css::uno::Any anyEx = cppu::getCaughtException(); throw css::lang::WrappedTargetRuntimeException( "SfxDocumentMetaData::setMetaText: DOM exception", css::uno::Reference(*this), anyEx); } } void SfxDocumentMetaData::setMetaTextAndNotify(const char* i_name, const OUString & i_rValue) // throw (css::uno::RuntimeException) { ::osl::ClearableMutexGuard g(m_aMutex); if (setMetaText(i_name, i_rValue)) { g.clear(); setModified(true); } } OUString SfxDocumentMetaData::getMetaAttr(const char* i_name, const char* i_attr) const // throw (css::uno::RuntimeException) { OUString name = OUString::createFromAscii(i_name); assert(m_meta.find(name) != m_meta.end()); css::uno::Reference xNode = m_meta.find(name)->second; if (xNode.is()) { css::uno::Reference xElem(xNode, css::uno::UNO_QUERY_THROW); return xElem->getAttributeNS(getNameSpace(i_attr), getQualifier(i_attr).second); } else { return OUString(); } } css::uno::Sequence< OUString> SfxDocumentMetaData::getMetaList(const char* i_name) const // throw (css::uno::RuntimeException) { checkInit(); OUString name = OUString::createFromAscii(i_name); assert(m_metaList.find(name) != m_metaList.end()); std::vector > const & vec = m_metaList.find(name)->second; css::uno::Sequence< OUString> ret(vec.size()); for (size_t i = 0; i < vec.size(); ++i) { ret[i] = getNodeText(vec.at(i)); } return ret; } bool SfxDocumentMetaData::setMetaList(const char* i_name, const css::uno::Sequence & i_rValue, AttrVector const* i_pAttrs) // throw (css::uno::RuntimeException) { checkInit(); assert((i_pAttrs == nullptr) || (static_cast(i_rValue.getLength()) == i_pAttrs->size())); try { OUString name = OUString::createFromAscii(i_name); assert(m_metaList.find(name) != m_metaList.end()); std::vector > & vec = m_metaList[name]; // if nothing changed, do nothing // alas, this does not check for permutations, or attributes... if (nullptr == i_pAttrs) { if (static_cast(i_rValue.getLength()) == vec.size()) { bool isEqual(true); for (sal_Int32 i = 0; i < i_rValue.getLength(); ++i) { css::uno::Reference xNode(vec.at(i)); if (xNode.is()) { OUString val = getNodeText(xNode); if (val != i_rValue[i]) { isEqual = false; break; } } } if (isEqual) return false; } } // remove old meta data nodes { std::vector > ::reverse_iterator it(vec.rbegin()); try { for ( ;it != vec.rend(); ++it) { m_xParent->removeChild(*it); } } catch (...) { // Clean up already removed nodes vec.erase(it.base(), vec.end()); throw; } vec.clear(); } // insert new meta data nodes into DOM tree for (sal_Int32 i = 0; i < i_rValue.getLength(); ++i) { css::uno::Reference xElem( m_xDoc->createElementNS(getNameSpace(i_name), name), css::uno::UNO_SET_THROW); css::uno::Reference xNode(xElem, css::uno::UNO_QUERY_THROW); css::uno::Reference xTextNode( m_xDoc->createTextNode(i_rValue[i]), css::uno::UNO_QUERY_THROW); // set attributes if (i_pAttrs != nullptr) { for (auto const& elem : (*i_pAttrs)[i]) { xElem->setAttributeNS(getNameSpace(elem.first), OUString::createFromAscii(elem.first), elem.second); } } xNode->appendChild(xTextNode); m_xParent->appendChild(xNode); vec.push_back(xNode); } return true; } catch (const css::xml::dom::DOMException &) { css::uno::Any anyEx = cppu::getCaughtException(); throw css::lang::WrappedTargetRuntimeException( "SfxDocumentMetaData::setMetaList: DOM exception", css::uno::Reference(*this), anyEx); } } // convert property list to string list and attribute list std::pair, AttrVector> propsToStrings(css::uno::Reference const & i_xPropSet) { ::std::vector< OUString > values; AttrVector attrs; css::uno::Reference xSetInfo = i_xPropSet->getPropertySetInfo(); css::uno::Sequence props = xSetInfo->getProperties(); for (sal_Int32 i = 0; i < props.getLength(); ++i) { if (props[i].Attributes & css::beans::PropertyAttribute::TRANSIENT) { continue; } const OUString name = props[i].Name; css::uno::Any any; try { any = i_xPropSet->getPropertyValue(name); } catch (const css::uno::Exception &) { // ignore } const css::uno::Type & type = any.getValueType(); std::vector > as; as.emplace_back("meta:name", name); const char* vt = "meta:value-type"; // convert according to type if (type == ::cppu::UnoType::get()) { bool b = false; any >>= b; OUStringBuffer buf; ::sax::Converter::convertBool(buf, b); values.push_back(buf.makeStringAndClear()); as.emplace_back(vt, OUString("boolean")); } else if (type == ::cppu::UnoType< OUString>::get()) { OUString s; any >>= s; values.push_back(s); // #i90847# OOo 2.x does stupid things if value-type="string"; // fortunately string is default anyway, so we can just omit it // #i107502#: however, OOo 2.x only reads 4 user-defined without @value-type // => best backward compatibility: first 4 without @value-type, rest with if (4 <= i) { as.emplace_back(vt, OUString("string")); } } else if (type == ::cppu::UnoType::get()) { css::util::DateTime dt; any >>= dt; values.push_back(dateTimeToText(dt)); as.emplace_back(vt, OUString("date")); } else if (type == ::cppu::UnoType::get()) { css::util::Date d; any >>= d; values.push_back(dateToText(d, nullptr)); as.emplace_back(vt,OUString("date")); } else if (type == ::cppu::UnoType::get()) { css::util::DateTimeWithTimezone dttz; any >>= dttz; values.push_back(dateTimeToText(dttz.DateTimeInTZ, &dttz.Timezone)); as.emplace_back(vt, OUString("date")); } else if (type == ::cppu::UnoType::get()) { css::util::DateWithTimezone dtz; any >>= dtz; values.push_back(dateToText(dtz.DateInTZ, &dtz.Timezone)); as.emplace_back(vt, OUString("date")); } else if (type == ::cppu::UnoType::get()) { // #i97029#: replaced by Duration // Time is supported for backward compatibility with OOo 3.x, x<=2 css::util::Time ut; any >>= ut; css::util::Duration ud; ud.Hours = ut.Hours; ud.Minutes = ut.Minutes; ud.Seconds = ut.Seconds; ud.NanoSeconds = ut.NanoSeconds; values.push_back(durationToText(ud)); as.emplace_back(vt, OUString("time")); } else if (type == ::cppu::UnoType::get()) { css::util::Duration ud; any >>= ud; values.push_back(durationToText(ud)); as.emplace_back(vt, OUString("time")); } else if (::cppu::UnoType::get().isAssignableFrom(type)) { // support not just double, but anything that can be converted double d = 0; any >>= d; OUStringBuffer buf; ::sax::Converter::convertDouble(buf, d); values.push_back(buf.makeStringAndClear()); as.emplace_back(vt, OUString("float")); } else { SAL_WARN("sfx.doc", "Unsupported property type: " << any.getValueTypeName() ); continue; } attrs.push_back(as); } return std::make_pair(comphelper::containerToSequence(values), attrs); } // remove the given element from the DOM, and iff i_pAttrs != 0 insert new one void SfxDocumentMetaData::updateElement(const char *i_name, std::vector >* i_pAttrs) { OUString name = OUString::createFromAscii(i_name); try { // remove old element css::uno::Reference xNode = m_meta.find(name)->second; if (xNode.is()) { m_xParent->removeChild(xNode); xNode.clear(); } // add new element if (nullptr != i_pAttrs) { css::uno::Reference xElem( m_xDoc->createElementNS(getNameSpace(i_name), name), css::uno::UNO_SET_THROW); xNode.set(xElem, css::uno::UNO_QUERY_THROW); // set attributes for (auto const& elem : *i_pAttrs) { xElem->setAttributeNS(getNameSpace(elem.first), OUString::createFromAscii(elem.first), elem.second); } m_xParent->appendChild(xNode); } m_meta[name] = xNode; } catch (const css::xml::dom::DOMException &) { css::uno::Any anyEx = cppu::getCaughtException(); throw css::lang::WrappedTargetRuntimeException( "SfxDocumentMetaData::updateElement: DOM exception", css::uno::Reference(*this), anyEx); } } // update user-defined meta data in DOM tree void SfxDocumentMetaData::updateUserDefinedAndAttributes() { createUserDefined(); const css::uno::Reference xPSet(m_xUserDefined, css::uno::UNO_QUERY_THROW); const std::pair, AttrVector> udStringsAttrs( propsToStrings(xPSet) ); (void) setMetaList("meta:user-defined", udStringsAttrs.first, &udStringsAttrs.second); // update elements with attributes std::vector > attributes; if (!m_TemplateName.isEmpty() || !m_TemplateURL.isEmpty() || isValidDateTime(m_TemplateDate)) { attributes.emplace_back("xlink:type", OUString("simple")); attributes.emplace_back("xlink:actuate", OUString("onRequest")); attributes.emplace_back("xlink:title", m_TemplateName); attributes.emplace_back("xlink:href", m_TemplateURL ); if (isValidDateTime(m_TemplateDate)) { attributes.emplace_back( "meta:date", dateTimeToText(m_TemplateDate)); } updateElement("meta:template", &attributes); } else { updateElement("meta:template"); } attributes.clear(); if (!m_AutoloadURL.isEmpty() || (0 != m_AutoloadSecs)) { attributes.emplace_back("xlink:href", m_AutoloadURL ); attributes.emplace_back("meta:delay", durationToText(m_AutoloadSecs)); updateElement("meta:auto-reload", &attributes); } else { updateElement("meta:auto-reload"); } attributes.clear(); if (!m_DefaultTarget.isEmpty()) { attributes.emplace_back( "office:target-frame-name", m_DefaultTarget); // xlink:show: _blank -> new, any other value -> replace const char* show = m_DefaultTarget == "_blank" ? "new" : "replace"; attributes.emplace_back( "xlink:show", OUString::createFromAscii(show)); updateElement("meta:hyperlink-behaviour", &attributes); } else { updateElement("meta:hyperlink-behaviour"); } attributes.clear(); } // create empty DOM tree (XDocument) css::uno::Reference SfxDocumentMetaData::createDOM() const // throw (css::uno::RuntimeException) { css::uno::Reference xBuilder( css::xml::dom::DocumentBuilder::create(m_xContext) ); css::uno::Reference xDoc = xBuilder->newDocument(); if (!xDoc.is()) throw css::uno::RuntimeException( "SfxDocumentMetaData::createDOM: cannot create new document", *const_cast(this)); return xDoc; } void SfxDocumentMetaData::checkInit() const // throw (css::uno::RuntimeException) { if (!m_isInitialized) { throw css::uno::RuntimeException( "SfxDocumentMetaData::checkInit: not initialized", *const_cast(this)); } assert(m_xDoc.is() && m_xParent.is()); } // initialize state from DOM tree void SfxDocumentMetaData::init( const css::uno::Reference& i_xDoc) { if (!i_xDoc.is()) throw css::uno::RuntimeException("SfxDocumentMetaData::init: no DOM tree given", *this); css::uno::Reference xPath = css::xml::xpath::XPathAPI::create(m_xContext); m_isInitialized = false; m_xDoc = i_xDoc; // select nodes for standard meta data stuff xPath->registerNS("xlink", s_nsXLink); xPath->registerNS("dc", s_nsDC); xPath->registerNS("office", s_nsODF); xPath->registerNS("meta", s_nsODFMeta); // NB: we do not handle the single-XML-file ODF variant, which would // have the root element office:document. // The root of such documents must be converted in the importer! OUString const prefix( "/child::office:document-meta/child::office:meta"); css::uno::Reference xDocNode( m_xDoc, css::uno::UNO_QUERY_THROW); m_xParent.clear(); try { m_xParent = xPath->selectSingleNode(xDocNode, prefix); } catch (const css::uno::Exception &) { } if (!m_xParent.is()) { // all this create/append stuff may throw DOMException try { css::uno::Reference xRElem; css::uno::Reference xNode( i_xDoc->getFirstChild()); while (xNode.is()) { if (css::xml::dom::NodeType_ELEMENT_NODE ==xNode->getNodeType()) { if ( xNode->getNamespaceURI() == s_nsODF && xNode->getLocalName() == "document-meta" ) { xRElem.set(xNode, css::uno::UNO_QUERY_THROW); break; } else { SAL_INFO("sfx.doc", "SfxDocumentMetaData::init(): " "deleting unexpected root element: " << xNode->getLocalName()); i_xDoc->removeChild(xNode); xNode = i_xDoc->getFirstChild(); // start over } } else { xNode = xNode->getNextSibling(); } } if (!xRElem.is()) { xRElem = i_xDoc->createElementNS( s_nsODF, "office:document-meta"); css::uno::Reference xRNode(xRElem, css::uno::UNO_QUERY_THROW); i_xDoc->appendChild(xRNode); } xRElem->setAttributeNS(s_nsODF, "office:version", "1.0"); // does not exist, otherwise m_xParent would not be null css::uno::Reference xParent ( i_xDoc->createElementNS(s_nsODF, "office:meta"), css::uno::UNO_QUERY_THROW); xRElem->appendChild(xParent); m_xParent = xParent; } catch (const css::xml::dom::DOMException &) { css::uno::Any anyEx = cppu::getCaughtException(); throw css::lang::WrappedTargetRuntimeException( "SfxDocumentMetaData::init: DOM exception", css::uno::Reference(*this), anyEx); } } // select nodes for elements of which we only handle one occurrence for (const char **pName = s_stdMeta; *pName != nullptr; ++pName) { OUString name = OUString::createFromAscii(*pName); // NB: If a document contains more than one occurrence of a // meta-data element, we arbitrarily pick one of them here. // We do not remove the others, i.e., when we write the // document, it will contain the duplicates unchanged. // The ODF spec says that handling multiple occurrences is // application-specific. css::uno::Reference xNode = xPath->selectSingleNode(m_xParent, "child::" + name); // Do not create an empty element if it is missing; // for certain elements, such as dateTime, this would be invalid m_meta[name] = xNode; } // select nodes for elements of which we handle all occurrences for (const char **pName = s_stdMetaList; *pName != nullptr; ++pName) { OUString name = OUString::createFromAscii(*pName); css::uno::Reference nodes = xPath->selectNodeList(m_xParent, "child::" + name); std::vector > v; v.reserve(nodes->getLength()); for (sal_Int32 i = 0; i < nodes->getLength(); ++i) { v.push_back(nodes->item(i)); } m_metaList[name] = v; } // initialize members corresponding to attributes from DOM nodes m_TemplateName = getMetaAttr("meta:template", "xlink:title"); m_TemplateURL = getMetaAttr("meta:template", "xlink:href"); m_TemplateDate = textToDateTimeDefault(getMetaAttr("meta:template", "meta:date")); m_AutoloadURL = getMetaAttr("meta:auto-reload", "xlink:href"); m_AutoloadSecs = textToDuration(getMetaAttr("meta:auto-reload", "meta:delay")); m_DefaultTarget = getMetaAttr("meta:hyperlink-behaviour", "office:target-frame-name"); std::vector > & vec = m_metaList[OUString("meta:user-defined")]; m_xUserDefined.clear(); // #i105826#: reset (may be re-initialization) if ( !vec.empty() ) { createUserDefined(); } // user-defined meta data: initialize PropertySet from DOM nodes for (auto const& elem : vec) { css::uno::Reference xElem(elem, css::uno::UNO_QUERY_THROW); css::uno::Any any; OUString name = xElem->getAttributeNS(s_nsODFMeta, "name"); OUString type = xElem->getAttributeNS(s_nsODFMeta, "value-type"); OUString text = getNodeText(elem); if ( type == "float" ) { double d; if (::sax::Converter::convertDouble(d, text)) { any <<= d; } else { SAL_WARN("sfx.doc", "Invalid float: " << text); continue; } } else if ( type == "date" ) { bool isDateTime; css::util::Date d; css::util::DateTime dt; std::optional nTimeZone; if (textToDateOrDateTime(d, dt, isDateTime, nTimeZone, text)) { if (isDateTime) { if (nTimeZone) { any <<= css::util::DateTimeWithTimezone(dt, *nTimeZone); } else { any <<= dt; } } else { if (nTimeZone) { any <<= css::util::DateWithTimezone(d, *nTimeZone); } else { any <<= d; } } } else { SAL_WARN("sfx.doc", "Invalid date: " << text); continue; } } else if ( type == "time" ) { css::util::Duration ud; if (textToDuration(ud, text)) { any <<= ud; } else { SAL_WARN("sfx.doc", "Invalid time: " << text); continue; } } else if ( type == "boolean" ) { bool b; if (::sax::Converter::convertBool(b, text)) { any <<= b; } else { SAL_WARN("sfx.doc", "Invalid boolean: " << text); continue; } } else { // default any <<= text; } try { m_xUserDefined->addProperty(name, css::beans::PropertyAttribute::REMOVABLE, any); } catch (const css::beans::PropertyExistException &) { SAL_WARN("sfx.doc", "Duplicate: " << name); // ignore; duplicate } catch (const css::beans::IllegalTypeException &) { SAL_INFO("sfx.doc", "SfxDocumentMetaData: illegal type: " << name); } catch (const css::lang::IllegalArgumentException &) { SAL_INFO("sfx.doc", "SfxDocumentMetaData: illegal arg: " << name); } } m_isModified = false; m_isInitialized = true; } SfxDocumentMetaData::SfxDocumentMetaData( css::uno::Reference< css::uno::XComponentContext > const & context) : BaseMutex() , SfxDocumentMetaData_Base(m_aMutex) , m_xContext(context) , m_NotifyListeners(m_aMutex) , m_isInitialized(false) , m_isModified(false) , m_AutoloadSecs(0) { assert(context.is()); assert(context->getServiceManager().is()); init(createDOM()); } // com.sun.star.uno.XServiceInfo: OUString SAL_CALL SfxDocumentMetaData::getImplementationName() { return "SfxDocumentMetaData"; } sal_Bool SAL_CALL SfxDocumentMetaData::supportsService(OUString const & serviceName) { return cppu::supportsService(this, serviceName); } css::uno::Sequence< OUString > SAL_CALL SfxDocumentMetaData::getSupportedServiceNames() { css::uno::Sequence< OUString > s { "com.sun.star.document.DocumentProperties" }; return s; } // css::lang::XComponent: void SAL_CALL SfxDocumentMetaData::dispose() { ::osl::MutexGuard g(m_aMutex); if (!m_isInitialized) { return; } WeakComponentImplHelperBase::dispose(); // superclass m_NotifyListeners.disposeAndClear(css::lang::EventObject( static_cast< ::cppu::OWeakObject* >(this))); m_isInitialized = false; m_meta.clear(); m_metaList.clear(); m_xParent.clear(); m_xDoc.clear(); m_xUserDefined.clear(); } // css::document::XDocumentProperties: OUString SAL_CALL SfxDocumentMetaData::getAuthor() { ::osl::MutexGuard g(m_aMutex); return getMetaText("meta:initial-creator"); } void SAL_CALL SfxDocumentMetaData::setAuthor(const OUString & the_value) { setMetaTextAndNotify("meta:initial-creator", the_value); } OUString SAL_CALL SfxDocumentMetaData::getGenerator() { ::osl::MutexGuard g(m_aMutex); return getMetaText("meta:generator"); } void SAL_CALL SfxDocumentMetaData::setGenerator(const OUString & the_value) { setMetaTextAndNotify("meta:generator", the_value); } css::util::DateTime SAL_CALL SfxDocumentMetaData::getCreationDate() { ::osl::MutexGuard g(m_aMutex); return textToDateTimeDefault(getMetaText("meta:creation-date")); } void SAL_CALL SfxDocumentMetaData::setCreationDate(const css::util::DateTime & the_value) { setMetaTextAndNotify("meta:creation-date", dateTimeToText(the_value)); } OUString SAL_CALL SfxDocumentMetaData::getTitle() { ::osl::MutexGuard g(m_aMutex); return getMetaText("dc:title"); } void SAL_CALL SfxDocumentMetaData::setTitle(const OUString & the_value) { setMetaTextAndNotify("dc:title", the_value); } OUString SAL_CALL SfxDocumentMetaData::getSubject() { ::osl::MutexGuard g(m_aMutex); return getMetaText("dc:subject"); } void SAL_CALL SfxDocumentMetaData::setSubject(const OUString & the_value) { setMetaTextAndNotify("dc:subject", the_value); } OUString SAL_CALL SfxDocumentMetaData::getDescription() { ::osl::MutexGuard g(m_aMutex); return getMetaText("dc:description"); } void SAL_CALL SfxDocumentMetaData::setDescription(const OUString & the_value) { setMetaTextAndNotify("dc:description", the_value); } css::uno::Sequence< OUString > SAL_CALL SfxDocumentMetaData::getKeywords() { ::osl::MutexGuard g(m_aMutex); return getMetaList("meta:keyword"); } void SAL_CALL SfxDocumentMetaData::setKeywords( const css::uno::Sequence< OUString > & the_value) { ::osl::ClearableMutexGuard g(m_aMutex); if (setMetaList("meta:keyword", the_value, nullptr)) { g.clear(); setModified(true); } } css::lang::Locale SAL_CALL SfxDocumentMetaData::getLanguage() { ::osl::MutexGuard g(m_aMutex); css::lang::Locale loc( LanguageTag::convertToLocale( getMetaText("dc:language"), false)); return loc; } void SAL_CALL SfxDocumentMetaData::setLanguage(const css::lang::Locale & the_value) { OUString text( LanguageTag::convertToBcp47( the_value, false)); setMetaTextAndNotify("dc:language", text); } OUString SAL_CALL SfxDocumentMetaData::getModifiedBy() { ::osl::MutexGuard g(m_aMutex); return getMetaText("dc:creator"); } void SAL_CALL SfxDocumentMetaData::setModifiedBy(const OUString & the_value) { setMetaTextAndNotify("dc:creator", the_value); } css::util::DateTime SAL_CALL SfxDocumentMetaData::getModificationDate() { ::osl::MutexGuard g(m_aMutex); return textToDateTimeDefault(getMetaText("dc:date")); } void SAL_CALL SfxDocumentMetaData::setModificationDate(const css::util::DateTime & the_value) { setMetaTextAndNotify("dc:date", dateTimeToText(the_value)); } OUString SAL_CALL SfxDocumentMetaData::getPrintedBy() { ::osl::MutexGuard g(m_aMutex); return getMetaText("meta:printed-by"); } void SAL_CALL SfxDocumentMetaData::setPrintedBy(const OUString & the_value) { setMetaTextAndNotify("meta:printed-by", the_value); } css::util::DateTime SAL_CALL SfxDocumentMetaData::getPrintDate() { ::osl::MutexGuard g(m_aMutex); return textToDateTimeDefault(getMetaText("meta:print-date")); } void SAL_CALL SfxDocumentMetaData::setPrintDate(const css::util::DateTime & the_value) { setMetaTextAndNotify("meta:print-date", dateTimeToText(the_value)); } OUString SAL_CALL SfxDocumentMetaData::getTemplateName() { ::osl::MutexGuard g(m_aMutex); checkInit(); return m_TemplateName; } void SAL_CALL SfxDocumentMetaData::setTemplateName(const OUString & the_value) { ::osl::ClearableMutexGuard g(m_aMutex); checkInit(); if (m_TemplateName != the_value) { m_TemplateName = the_value; g.clear(); setModified(true); } } OUString SAL_CALL SfxDocumentMetaData::getTemplateURL() { ::osl::MutexGuard g(m_aMutex); checkInit(); return m_TemplateURL; } void SAL_CALL SfxDocumentMetaData::setTemplateURL(const OUString & the_value) { ::osl::ClearableMutexGuard g(m_aMutex); checkInit(); if (m_TemplateURL != the_value) { m_TemplateURL = the_value; g.clear(); setModified(true); } } css::util::DateTime SAL_CALL SfxDocumentMetaData::getTemplateDate() { ::osl::MutexGuard g(m_aMutex); checkInit(); return m_TemplateDate; } void SAL_CALL SfxDocumentMetaData::setTemplateDate(const css::util::DateTime & the_value) { ::osl::ClearableMutexGuard g(m_aMutex); checkInit(); if (m_TemplateDate != the_value) { m_TemplateDate = the_value; g.clear(); setModified(true); } } OUString SAL_CALL SfxDocumentMetaData::getAutoloadURL() { ::osl::MutexGuard g(m_aMutex); checkInit(); return m_AutoloadURL; } void SAL_CALL SfxDocumentMetaData::setAutoloadURL(const OUString & the_value) { ::osl::ClearableMutexGuard g(m_aMutex); checkInit(); if (m_AutoloadURL != the_value) { m_AutoloadURL = the_value; g.clear(); setModified(true); } } ::sal_Int32 SAL_CALL SfxDocumentMetaData::getAutoloadSecs() { ::osl::MutexGuard g(m_aMutex); checkInit(); return m_AutoloadSecs; } void SAL_CALL SfxDocumentMetaData::setAutoloadSecs(::sal_Int32 the_value) { if (the_value < 0) throw css::lang::IllegalArgumentException( "SfxDocumentMetaData::setAutoloadSecs: argument is negative", *this, 0); ::osl::ClearableMutexGuard g(m_aMutex); checkInit(); if (m_AutoloadSecs != the_value) { m_AutoloadSecs = the_value; g.clear(); setModified(true); } } OUString SAL_CALL SfxDocumentMetaData::getDefaultTarget() { ::osl::MutexGuard g(m_aMutex); checkInit(); return m_DefaultTarget; } void SAL_CALL SfxDocumentMetaData::setDefaultTarget(const OUString & the_value) { ::osl::ClearableMutexGuard g(m_aMutex); checkInit(); if (m_DefaultTarget != the_value) { m_DefaultTarget = the_value; g.clear(); setModified(true); } } css::uno::Sequence< css::beans::NamedValue > SAL_CALL SfxDocumentMetaData::getDocumentStatistics() { ::osl::MutexGuard g(m_aMutex); checkInit(); ::std::vector stats; for (size_t i = 0; s_stdStats[i] != nullptr; ++i) { const char * aName = s_stdStatAttrs[i]; OUString text = getMetaAttr("meta:document-statistic", aName); if (text.isEmpty()) continue; css::beans::NamedValue stat; stat.Name = OUString::createFromAscii(s_stdStats[i]); sal_Int32 val; css::uno::Any any; if (!::sax::Converter::convertNumber(val, text, 0) || (val < 0)) { val = 0; SAL_WARN("sfx.doc", "Invalid number: " << text); } any <<= val; stat.Value = any; stats.push_back(stat); } return ::comphelper::containerToSequence(stats); } void SAL_CALL SfxDocumentMetaData::setDocumentStatistics( const css::uno::Sequence< css::beans::NamedValue > & the_value) { { osl::MutexGuard g(m_aMutex); checkInit(); std::vector > attributes; for (const auto& rValue : the_value) { const OUString name = rValue.Name; // inefficiently search for matching attribute for (size_t j = 0; s_stdStats[j] != nullptr; ++j) { if (name.equalsAscii(s_stdStats[j])) { const css::uno::Any any = rValue.Value; sal_Int32 val = 0; if (any >>= val) { attributes.emplace_back(s_stdStatAttrs[j], OUString::number(val)); } else { SAL_WARN("sfx.doc", "Invalid statistic: " << name); } break; } } } updateElement("meta:document-statistic", &attributes); } setModified(true); } ::sal_Int16 SAL_CALL SfxDocumentMetaData::getEditingCycles() { ::osl::MutexGuard g(m_aMutex); OUString text = getMetaText("meta:editing-cycles"); sal_Int32 ret; if (::sax::Converter::convertNumber(ret, text, 0, std::numeric_limits::max())) { return static_cast(ret); } else { return 0; } } void SAL_CALL SfxDocumentMetaData::setEditingCycles(::sal_Int16 the_value) { if (the_value < 0) throw css::lang::IllegalArgumentException( "SfxDocumentMetaData::setEditingCycles: argument is negative", *this, 0); setMetaTextAndNotify("meta:editing-cycles", OUString::number(the_value)); } ::sal_Int32 SAL_CALL SfxDocumentMetaData::getEditingDuration() { ::osl::MutexGuard g(m_aMutex); return textToDuration(getMetaText("meta:editing-duration")); } void SAL_CALL SfxDocumentMetaData::setEditingDuration(::sal_Int32 the_value) { if (the_value < 0) throw css::lang::IllegalArgumentException( "SfxDocumentMetaData::setEditingDuration: argument is negative", *this, 0); setMetaTextAndNotify("meta:editing-duration", durationToText(the_value)); } void SAL_CALL SfxDocumentMetaData::resetUserData(const OUString & the_value) { ::osl::ClearableMutexGuard g(m_aMutex); bool bModified( false ); bModified |= setMetaText("meta:initial-creator", the_value); ::DateTime now( ::DateTime::SYSTEM ); css::util::DateTime uDT(now.GetUNODateTime()); bModified |= setMetaText("meta:creation-date", dateTimeToText(uDT)); bModified |= setMetaText("dc:creator", OUString()); bModified |= setMetaText("meta:printed-by", OUString()); bModified |= setMetaText("dc:date", dateTimeToText(css::util::DateTime())); bModified |= setMetaText("meta:print-date", dateTimeToText(css::util::DateTime())); bModified |= setMetaText("meta:editing-duration", durationToText(0)); bModified |= setMetaText("meta:editing-cycles", "1"); if (bModified) { g.clear(); setModified(true); } } css::uno::Reference< css::beans::XPropertyContainer > SAL_CALL SfxDocumentMetaData::getUserDefinedProperties() { ::osl::MutexGuard g(m_aMutex); checkInit(); createUserDefined(); return m_xUserDefined; } void SAL_CALL SfxDocumentMetaData::loadFromStorage( const css::uno::Reference< css::embed::XStorage > & xStorage, const css::uno::Sequence< css::beans::PropertyValue > & Medium) { if (!xStorage.is()) throw css::lang::IllegalArgumentException("SfxDocumentMetaData::loadFromStorage: argument is null", *this, 0); ::osl::MutexGuard g(m_aMutex); // open meta data file css::uno::Reference xStream( xStorage->openStreamElement( s_meta, css::embed::ElementModes::READ) ); if (!xStream.is()) throw css::uno::RuntimeException(); css::uno::Reference xInStream = xStream->getInputStream(); if (!xInStream.is()) throw css::uno::RuntimeException(); // create DOM parser service css::uno::Reference xMsf ( m_xContext->getServiceManager()); css::uno::Reference xParser = css::xml::sax::Parser::create(m_xContext); css::xml::sax::InputSource input; input.aInputStream = xInStream; sal_uInt64 version = SotStorage::GetVersion( xStorage ); // Oasis is also the default (0) bool bOasis = ( version > SOFFICE_FILEFORMAT_60 || version == 0 ); const char *pServiceName = bOasis ? "com.sun.star.document.XMLOasisMetaImporter" : "com.sun.star.document.XMLMetaImporter"; // set base URL css::uno::Reference xPropArg = getURLProperties(Medium); try { xPropArg->getPropertyValue("BaseURI") >>= input.sSystemId; input.sSystemId += OUStringLiteral("/") + s_meta; } catch (const css::uno::Exception &) { input.sSystemId = s_meta; } css::uno::Sequence< css::uno::Any > args(1); args[0] <<= xPropArg; css::uno::Reference xDocHandler ( xMsf->createInstanceWithArgumentsAndContext( OUString::createFromAscii(pServiceName), args, m_xContext), css::uno::UNO_QUERY_THROW); css::uno::Reference xImp (xDocHandler, css::uno::UNO_QUERY_THROW); xImp->setTargetDocument(css::uno::Reference(this)); xParser->setDocumentHandler(xDocHandler); css::uno::Reference< css::xml::sax::XFastParser > xFastParser = dynamic_cast< css::xml::sax::XFastParser* >( xDocHandler.get() ); try { if( xFastParser.is() ) xFastParser->parseStream(input); else xParser->parseStream(input); } catch (const css::xml::sax::SAXException &) { throw css::io::WrongFormatException( "SfxDocumentMetaData::loadFromStorage:" " XML parsing exception", *this); } // NB: the implementation of XMLOasisMetaImporter calls initialize checkInit(); } void SAL_CALL SfxDocumentMetaData::storeToStorage( const css::uno::Reference< css::embed::XStorage > & xStorage, const css::uno::Sequence< css::beans::PropertyValue > & Medium) { if (!xStorage.is()) throw css::lang::IllegalArgumentException( "SfxDocumentMetaData::storeToStorage: argument is null", *this, 0); ::osl::MutexGuard g(m_aMutex); checkInit(); // update user-defined meta data in DOM tree // updateUserDefinedAndAttributes(); // this will be done in serialize! // write into storage css::uno::Reference xStream = xStorage->openStreamElement(s_meta, css::embed::ElementModes::WRITE | css::embed::ElementModes::TRUNCATE); if (!xStream.is()) throw css::uno::RuntimeException(); css::uno::Reference< css::beans::XPropertySet > xStreamProps(xStream, css::uno::UNO_QUERY_THROW); xStreamProps->setPropertyValue( "MediaType", css::uno::makeAny(OUString("text/xml"))); xStreamProps->setPropertyValue( "Compressed", css::uno::makeAny(false)); xStreamProps->setPropertyValue( "UseCommonStoragePasswordEncryption", css::uno::makeAny(false)); css::uno::Reference xOutStream = xStream->getOutputStream(); if (!xOutStream.is()) throw css::uno::RuntimeException(); css::uno::Reference xMsf ( m_xContext->getServiceManager()); css::uno::Reference xSaxWriter( css::xml::sax::Writer::create(m_xContext)); xSaxWriter->setOutputStream(xOutStream); const sal_uInt64 version = SotStorage::GetVersion( xStorage ); // Oasis is also the default (0) const bool bOasis = ( version > SOFFICE_FILEFORMAT_60 || version == 0 ); const char *pServiceName = bOasis ? "com.sun.star.document.XMLOasisMetaExporter" : "com.sun.star.document.XMLMetaExporter"; // set base URL css::uno::Reference xPropArg = getURLProperties(Medium); css::uno::Sequence< css::uno::Any > args(2); args[0] <<= xSaxWriter; args[1] <<= xPropArg; css::uno::Reference xExp( xMsf->createInstanceWithArgumentsAndContext( OUString::createFromAscii(pServiceName), args, m_xContext), css::uno::UNO_QUERY_THROW); xExp->setSourceDocument(css::uno::Reference(this)); css::uno::Reference xFilter(xExp, css::uno::UNO_QUERY_THROW); if (!xFilter->filter(css::uno::Sequence< css::beans::PropertyValue >())) { throw css::io::IOException( "SfxDocumentMetaData::storeToStorage: cannot filter", *this); } css::uno::Reference xTransaction( xStorage, css::uno::UNO_QUERY); if (xTransaction.is()) { xTransaction->commit(); } } void SAL_CALL SfxDocumentMetaData::loadFromMedium(const OUString & URL, const css::uno::Sequence< css::beans::PropertyValue > & Medium) { css::uno::Reference xIn; utl::MediaDescriptor md(Medium); // if we have a URL parameter, it replaces the one in the media descriptor if (!URL.isEmpty()) { md[ utl::MediaDescriptor::PROP_URL() ] <<= URL; md[ utl::MediaDescriptor::PROP_READONLY() ] <<= true; } if (md.addInputStream()) { md[ utl::MediaDescriptor::PROP_INPUTSTREAM() ] >>= xIn; } css::uno::Reference xStorage; try { if (xIn.is()) { xStorage = ::comphelper::OStorageHelper::GetStorageFromInputStream( xIn, m_xContext); } else { // fallback to url parameter xStorage = ::comphelper::OStorageHelper::GetStorageFromURL( URL, css::embed::ElementModes::READ, m_xContext); } } catch (const css::uno::RuntimeException &) { throw; } catch (const css::io::IOException &) { throw; } catch (const css::uno::Exception &) { css::uno::Any anyEx = cppu::getCaughtException(); throw css::lang::WrappedTargetException( "SfxDocumentMetaData::loadFromMedium: exception", css::uno::Reference(*this), anyEx); } if (!xStorage.is()) { throw css::uno::RuntimeException( "SfxDocumentMetaData::loadFromMedium: cannot get Storage", *this); } loadFromStorage(xStorage, md.getAsConstPropertyValueList()); } void SAL_CALL SfxDocumentMetaData::storeToMedium(const OUString & URL, const css::uno::Sequence< css::beans::PropertyValue > & Medium) { utl::MediaDescriptor md(Medium); if (!URL.isEmpty()) { md[ utl::MediaDescriptor::PROP_URL() ] <<= URL; } SfxMedium aMedium(md.getAsConstPropertyValueList()); css::uno::Reference xStorage = aMedium.GetOutputStorage(); if (!xStorage.is()) { throw css::uno::RuntimeException( "SfxDocumentMetaData::storeToMedium: cannot get Storage", *this); } // set MIME type of the storage utl::MediaDescriptor::const_iterator iter = md.find(utl::MediaDescriptor::PROP_MEDIATYPE()); if (iter != md.end()) { css::uno::Reference< css::beans::XPropertySet > xProps(xStorage, css::uno::UNO_QUERY_THROW); xProps->setPropertyValue( utl::MediaDescriptor::PROP_MEDIATYPE(), iter->second); } storeToStorage(xStorage, md.getAsConstPropertyValueList()); const bool bOk = aMedium.Commit(); aMedium.Close(); if ( !bOk ) { ErrCode nError = aMedium.GetError(); if ( nError == ERRCODE_NONE ) { nError = ERRCODE_IO_GENERAL; } throw css::task::ErrorCodeIOException( "SfxDocumentMetaData::storeToMedium <" + URL + "> Commit failed: " + nError.toHexString(), css::uno::Reference< css::uno::XInterface >(), sal_uInt32(nError)); } } // css::lang::XInitialization: void SAL_CALL SfxDocumentMetaData::initialize( const css::uno::Sequence< css::uno::Any > & aArguments) { // possible arguments: // - no argument: default initialization (empty DOM) // - 1 argument, XDocument: initialize with given DOM and empty base URL // NB: links in document must be absolute ::osl::MutexGuard g(m_aMutex); css::uno::Reference xDoc; for (sal_Int32 i = 0; i < aArguments.getLength(); ++i) { const css::uno::Any any = aArguments[i]; if (!(any >>= xDoc)) { throw css::lang::IllegalArgumentException( "SfxDocumentMetaData::initialize: argument must be XDocument", *this, static_cast(i)); } if (!xDoc.is()) { throw css::lang::IllegalArgumentException( "SfxDocumentMetaData::initialize: argument is null", *this, static_cast(i)); } } if (!xDoc.is()) { // For a new document, we create a new DOM tree here. xDoc = createDOM(); } init(xDoc); } // css::util::XCloneable: css::uno::Reference SAL_CALL SfxDocumentMetaData::createClone() { ::osl::MutexGuard g(m_aMutex); checkInit(); SfxDocumentMetaData *pNew = createMe(m_xContext); // NB: do not copy the modification listeners, only DOM css::uno::Reference xDoc = createDOM(); try { updateUserDefinedAndAttributes(); // deep copy of root node css::uno::Reference xRoot( m_xDoc->getDocumentElement(), css::uno::UNO_QUERY_THROW); css::uno::Reference xRootNew( xDoc->importNode(xRoot, true)); xDoc->appendChild(xRootNew); pNew->init(xDoc); } catch (const css::uno::RuntimeException &) { throw; } catch (const css::uno::Exception &) { css::uno::Any anyEx = cppu::getCaughtException(); throw css::lang::WrappedTargetRuntimeException( "SfxDocumentMetaData::createClone: exception", css::uno::Reference(*this), anyEx); } return css::uno::Reference (pNew); } // css::util::XModifiable: sal_Bool SAL_CALL SfxDocumentMetaData::isModified( ) { ::osl::MutexGuard g(m_aMutex); checkInit(); css::uno::Reference xMB(m_xUserDefined, css::uno::UNO_QUERY); return m_isModified || (xMB.is() && xMB->isModified()); } void SAL_CALL SfxDocumentMetaData::setModified( sal_Bool bModified ) { css::uno::Reference xMB; { // do not lock mutex while notifying (#i93514#) to prevent deadlock ::osl::MutexGuard g(m_aMutex); checkInit(); m_isModified = bModified; if ( !bModified && m_xUserDefined.is() ) { xMB.set(m_xUserDefined, css::uno::UNO_QUERY); assert(xMB.is() && "SfxDocumentMetaData::setModified: PropertyBag not Modifiable?"); } } if (bModified) { try { css::uno::Reference xThis(*this); css::lang::EventObject event(xThis); m_NotifyListeners.notifyEach(&css::util::XModifyListener::modified, event); } catch (const css::uno::RuntimeException &) { throw; } catch (const css::uno::Exception &) { // ignore TOOLS_WARN_EXCEPTION("sfx.doc", "setModified"); } } else { if (xMB.is()) { xMB->setModified(false); } } } // css::util::XModifyBroadcaster: void SAL_CALL SfxDocumentMetaData::addModifyListener( const css::uno::Reference< css::util::XModifyListener > & xListener) { ::osl::MutexGuard g(m_aMutex); checkInit(); m_NotifyListeners.addInterface(xListener); css::uno::Reference xMB(m_xUserDefined, css::uno::UNO_QUERY); if (xMB.is()) { xMB->addModifyListener(xListener); } } void SAL_CALL SfxDocumentMetaData::removeModifyListener( const css::uno::Reference< css::util::XModifyListener > & xListener) { ::osl::MutexGuard g(m_aMutex); checkInit(); m_NotifyListeners.removeInterface(xListener); css::uno::Reference xMB(m_xUserDefined, css::uno::UNO_QUERY); if (xMB.is()) { xMB->removeModifyListener(xListener); } } // css::xml::sax::XSAXSerializable void SAL_CALL SfxDocumentMetaData::serialize( const css::uno::Reference& i_xHandler, const css::uno::Sequence< css::beans::StringPair >& i_rNamespaces) { ::osl::MutexGuard g(m_aMutex); checkInit(); updateUserDefinedAndAttributes(); css::uno::Reference xSAXable(m_xDoc, css::uno::UNO_QUERY_THROW); xSAXable->serialize(i_xHandler, i_rNamespaces); } void SfxDocumentMetaData::createUserDefined() { // user-defined meta data: create PropertyBag which only accepts property // values of allowed types if ( m_xUserDefined.is() ) return; css::uno::Sequence types(13); types[ 0] = ::cppu::UnoType::get(); types[ 1] = ::cppu::UnoType< OUString>::get(); types[ 2] = ::cppu::UnoType::get(); types[ 3] = ::cppu::UnoType::get(); types[ 4] = ::cppu::UnoType::get(); types[ 5] = ::cppu::UnoType::get(); types[ 6] = ::cppu::UnoType::get(); types[ 7] = ::cppu::UnoType::get(); types[ 8] = ::cppu::UnoType::get(); types[ 9] = ::cppu::UnoType::get(); types[10] = ::cppu::UnoType::get(); types[11] = ::cppu::UnoType::get(); // Time is supported for backward compatibility with OOo 3.x, x<=2 types[12] = ::cppu::UnoType::get(); // #i94175#: ODF allows empty user-defined property names! m_xUserDefined.set( css::beans::PropertyBag::createWithTypes( m_xContext, types, true/*AllowEmptyPropertyName*/, false/*AutomaticAddition*/ ), css::uno::UNO_QUERY_THROW); const css::uno::Reference xMB( m_xUserDefined, css::uno::UNO_QUERY); if (xMB.is()) { const std::vector > listeners(m_NotifyListeners.getElements()); for (const auto& l : listeners) { xMB->addModifyListener( css::uno::Reference< css::util::XModifyListener >(l, css::uno::UNO_QUERY) ); } } } } // closing anonymous implementation namespace extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface * CompatWriterDocPropsImpl_get_implementation( css::uno::XComponentContext *context, css::uno::Sequence const &) { return cppu::acquire(new CompatWriterDocPropsImpl(context)); } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface * SfxDocumentMetaData_get_implementation( css::uno::XComponentContext *context, css::uno::Sequence const &) { return cppu::acquire(new SfxDocumentMetaData(context)); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */