/* -*- 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 "rtl/ustring.hxx" #include "rtl/bootstrap.hxx" #include "osl/thread.hxx" #include "osl/file.hxx" #include "jvmfwk/framework.h" #include "vendorplugin.hxx" #include #include #include #include #include "framework.hxx" #include "fwkutil.hxx" #include "elements.hxx" #include "fwkbase.hxx" namespace { static bool g_bEnabledSwitchedOn = false; static JavaVM * g_pJavaVM = NULL; bool areEqualJavaInfo( JavaInfo const * pInfoA,JavaInfo const * pInfoB) { return jfw_areEqualJavaInfo(pInfoA, pInfoB); } } javaFrameworkError SAL_CALL jfw_findAllJREs(JavaInfo ***pparInfo, sal_Int32 *pSize) { javaFrameworkError retVal = JFW_E_NONE; try { osl::MutexGuard guard(jfw::FwkMutex::get()); javaFrameworkError errcode = JFW_E_NONE; if (pparInfo == NULL || pSize == NULL) return JFW_E_INVALID_ARG; jfw::VendorSettings aVendorSettings; std::vector vecVendors = aVendorSettings.getSupportedVendors(); //Add the JavaInfos found by jfw_plugin_getAllJavaInfos to the vector //Make sure that the contents are destroyed if this //function returns with an error std::vector vecInfo; //Add the JavaInfos found by jfw_plugin_getJavaInfoByPath to this vector //Make sure that the contents are destroyed if this //function returns with an error std::vector vecInfoManual; typedef std::vector::iterator it_info; //get the list of paths to jre locations which have been //added manually const jfw::MergedSettings settings; const std::vector& vecJRELocations = settings.getJRELocations(); //Use every plug-in library to get Java installations. typedef std::vector::const_iterator ci_pl; for (ci_pl i = vecVendors.begin(); i != vecVendors.end(); ++i) { const OUString & vendor = *i; jfw::VersionInfo versionInfo = aVendorSettings.getVersionInformation(vendor); //get all installations of one vendor according to minVersion, //maxVersion and excludeVersions sal_Int32 cInfos = 0; JavaInfo** arInfos = NULL; std::vector> infos; javaPluginError plerr = jfw_plugin_getAllJavaInfos( true, vendor, versionInfo.sMinVersion, versionInfo.sMaxVersion, versionInfo.getExcludeVersions(), versionInfo.getExcludeVersionSize(), & arInfos, & cInfos, infos); if (plerr != JFW_PLUGIN_E_NONE) return JFW_E_ERROR; for (int j = 0; j < cInfos; j++) vecInfo.push_back(jfw::CJavaInfo::createWrapper(arInfos[j])); rtl_freeMemory(arInfos); //Check if the current plugin can detect JREs at the location // of the paths added by jfw_addJRELocation //get the function from the plugin typedef std::vector::const_iterator citLoc; //Check every manually added location for (citLoc ii = vecJRELocations.begin(); ii != vecJRELocations.end(); ++ii) { jfw::CJavaInfo aInfo; plerr = jfw_plugin_getJavaInfoByPath( *ii, vendor, versionInfo.sMinVersion, versionInfo.sMaxVersion, versionInfo.getExcludeVersions(), versionInfo.getExcludeVersionSize(), & aInfo.pInfo); if (plerr == JFW_PLUGIN_E_NO_JRE) continue; if (plerr == JFW_PLUGIN_E_FAILED_VERSION) continue; else if (plerr !=JFW_PLUGIN_E_NONE) return JFW_E_ERROR; if (aInfo) { //Was this JRE already added?. Different plugins could detect //the same JRE it_info it_duplicate = std::find_if(vecInfoManual.begin(), vecInfoManual.end(), std::bind(areEqualJavaInfo, std::placeholders::_1, aInfo)); if (it_duplicate == vecInfoManual.end()) vecInfoManual.push_back(aInfo); } } } //Make sure vecInfoManual contains only JavaInfos for the vendors for which //there is a javaSelection/plugins/library entry in the javavendors.xml //To obtain the JavaInfos for the manually added JRE locations the function //jfw_getJavaInfoByPath is called which can return a JavaInfo of any vendor. std::vector vecInfoManual2; for (it_info ivm = vecInfoManual.begin(); ivm != vecInfoManual.end(); ++ivm) { for (ci_pl ii = vecVendors.begin(); ii != vecVendors.end(); ++ii) { if ( ii->equals((*ivm)->sVendor)) { vecInfoManual2.push_back(*ivm); break; } } } //Check which JavaInfo from vector vecInfoManual2 is already //contained in vecInfo. If it already exists then remove it from //vecInfoManual2 for (it_info j = vecInfo.begin(); j != vecInfo.end(); ++j) { it_info it_duplicate = std::find_if(vecInfoManual2.begin(), vecInfoManual2.end(), std::bind(areEqualJavaInfo, std::placeholders::_1, *j)); if (it_duplicate != vecInfoManual2.end()) vecInfoManual2.erase(it_duplicate); } //create an fill the array of JavaInfo* sal_Int32 nSize = vecInfo.size() + vecInfoManual2.size(); *pparInfo = static_cast(rtl_allocateMemory( nSize * sizeof(JavaInfo*))); if (*pparInfo == NULL) return JFW_E_ERROR; typedef std::vector::iterator it; int index = 0; //Add the automatically detected JREs for (it k = vecInfo.begin(); k != vecInfo.end(); ++k) (*pparInfo)[index++] = k->detach(); //Add the manually detected JREs for (it l = vecInfoManual2.begin(); l != vecInfoManual2.end(); ++l) (*pparInfo)[index++] = l->detach(); *pSize = nSize; return errcode; } catch (const jfw::FrameworkException& e) { retVal = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return retVal; } javaFrameworkError SAL_CALL jfw_startVM( JavaInfo const * pInfo, JavaVMOption * arOptions, sal_Int32 cOptions, JavaVM ** ppVM, JNIEnv ** ppEnv) { javaFrameworkError errcode = JFW_E_NONE; if (cOptions > 0 && arOptions == NULL) return JFW_E_INVALID_ARG; try { osl::MutexGuard guard(jfw::FwkMutex::get()); //We keep this pointer so we can determine if a VM has already //been created. if (g_pJavaVM != NULL) return JFW_E_RUNNING_JVM; if (ppVM == NULL) return JFW_E_INVALID_ARG; std::vector vmParams; OString sUserClassPath; jfw::CJavaInfo aInfo; if (pInfo == NULL) { jfw::JFW_MODE mode = jfw::getMode(); if (mode == jfw::JFW_MODE_APPLICATION) { const jfw::MergedSettings settings; if (!settings.getEnabled()) return JFW_E_JAVA_DISABLED; aInfo.attach(settings.createJavaInfo()); //check if a Java has ever been selected if (aInfo == NULL) return JFW_E_NO_SELECT; #ifdef WNT //Because on Windows there is no system setting that we can use to determine //if Assistive Technology Tool support is needed, we ship a .reg file that the //user can use to create a registry setting. When the user forgets to set //the key before he starts the office then a JRE may be selected without access bridge. //When he later sets the key then we select a JRE with accessibility support but //only if the user has not manually changed the selected JRE in the options dialog. if (jfw::isAccessibilitySupportDesired()) { // If no JRE has been selected then we do not select one. This function shall then //return JFW_E_NO_SELECT if (aInfo != NULL && (aInfo->nFeatures & JFW_FEATURE_ACCESSBRIDGE) == 0) { //has the user manually selected a JRE? if (settings.getJavaInfoAttrAutoSelect() == true) { // if not then the automatism has previously selected a JRE //without accessibility support. We return JFW_E_NO_SELECT //to cause that we search for another JRE. The search code will //then prefer a JRE with accessibility support. return JFW_E_NO_SELECT; } } } #endif //check if the javavendors.xml has changed after a Java was selected OString sVendorUpdate = jfw::getElementUpdated(); if (sVendorUpdate != settings.getJavaInfoAttrVendorUpdate()) return JFW_E_INVALID_SETTINGS; //check if JAVA is disabled //If Java is enabled, but it was disabled when this process was started // then no preparational work, such as setting the LD_LIBRARY_PATH, was //done. Therefore if a JRE needs it, it must not be started. if (g_bEnabledSwitchedOn && (aInfo->nRequirements & JFW_REQUIRE_NEEDRESTART)) return JFW_E_NEED_RESTART; //Check if the selected Java was set in this process. If so it //must not have the requirments flag JFW_REQUIRE_NEEDRESTART if ((aInfo->nRequirements & JFW_REQUIRE_NEEDRESTART) && jfw::wasJavaSelectedInSameProcess()) return JFW_E_NEED_RESTART; vmParams = settings.getVmParametersUtf8(); sUserClassPath = jfw::makeClassPathOption(settings.getUserClassPath()); } // end mode FWK_MODE_OFFICE else if (mode == jfw::JFW_MODE_DIRECT) { errcode = jfw_getSelectedJRE(&aInfo.pInfo); if (errcode != JFW_E_NONE) return errcode; //In direct mode the options are specified by bootstrap variables //of the form UNO_JAVA_JFW_PARAMETER_1 .. UNO_JAVA_JFW_PARAMETER_n vmParams = jfw::BootParams::getVMParameters(); sUserClassPath = "-Djava.class.path=" + jfw::BootParams::getClasspath(); } else OSL_ASSERT(false); pInfo = aInfo.pInfo; } assert(pInfo != NULL); //get the function jfw_plugin_startJavaVirtualMachine jfw::VendorSettings aVendorSettings; // create JavaVMOptions array that is passed to the plugin // it contains the classpath and all options set in the //options dialog std::unique_ptr sarJOptions( new JavaVMOption[cOptions + 2 + vmParams.size()]); JavaVMOption * arOpt = sarJOptions.get(); if (! arOpt) return JFW_E_ERROR; //The first argument is the classpath arOpt[0].optionString= const_cast(sUserClassPath.getStr()); arOpt[0].extraInfo = NULL; // Set a flag that this JVM has been created via the JNI Invocation API // (used, for example, by UNO remote bridges to share a common thread pool // factory among Java and native bridge implementations): arOpt[1].optionString = const_cast("-Dorg.openoffice.native="); arOpt[1].extraInfo = 0; //add the options set by options dialog int index = 2; typedef std::vector::const_iterator cit; for (cit i = vmParams.begin(); i != vmParams.end(); ++i) { arOpt[index].optionString = const_cast(i->getStr()); arOpt[index].extraInfo = 0; index ++; } //add all options of the arOptions argument for (int ii = 0; ii < cOptions; ii++) { arOpt[index].optionString = arOptions[ii].optionString; arOpt[index].extraInfo = arOptions[ii].extraInfo; index++; } //start Java JavaVM *pVm = NULL; SAL_INFO("jfw", "Starting Java"); javaPluginError plerr = jfw_plugin_startJavaVirtualMachine(pInfo, arOpt, index, & pVm, ppEnv); if (plerr == JFW_PLUGIN_E_VM_CREATION_FAILED) { errcode = JFW_E_VM_CREATION_FAILED; } else if (plerr != JFW_PLUGIN_E_NONE ) { errcode = JFW_E_ERROR; } else { g_pJavaVM = pVm; *ppVM = pVm; } OSL_ASSERT(plerr != JFW_PLUGIN_E_WRONG_VENDOR); } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } /** We do not use here jfw_findAllJREs and then check if a JavaInfo meets the requirements, because that means using all plug-ins, which may take quite a while. The implementation first inspects JAVA_HOME and PATH environment variables. If no suitable JavaInfo is found there, it inspects all JavaInfos found by the jfw_plugin_get* functions. */ javaFrameworkError SAL_CALL jfw_findAndSelectJRE(JavaInfo **pInfo) { javaFrameworkError errcode = JFW_E_NONE; try { osl::MutexGuard guard(jfw::FwkMutex::get()); if (jfw::getMode() == jfw::JFW_MODE_DIRECT) return JFW_E_DIRECT_MODE; sal_uInt64 nFeatureFlags = 0; jfw::CJavaInfo aCurrentInfo; //Determine if accessibility support is needed bool bSupportAccessibility = jfw::isAccessibilitySupportDesired(); nFeatureFlags = bSupportAccessibility ? JFW_FEATURE_ACCESSBRIDGE : 0L; // 'bInfoFound' indicates whether a Java installation has been found // that supports all desired features bool bInfoFound = false; // get list of vendors for Java installations jfw::VendorSettings aVendorSettings; std::vector vecVendors = aVendorSettings.getSupportedVendors(); // save vendors and respective version requirements pair-wise in a vector std::vector> versionInfos; typedef std::vector::const_iterator ciVendor; for (ciVendor i = vecVendors.begin(); i != vecVendors.end(); ++i) { const OUString & vendor = *i; jfw::VersionInfo versionInfo = aVendorSettings.getVersionInformation(vendor); versionInfos.push_back( std::pair(vendor, versionInfo)); } std::vector> infos; // first inspect Java installation that the JAVA_HOME // environment variable points to (if it is set) JavaInfo* pHomeInfo = NULL; if (jfw_plugin_getJavaInfoFromJavaHome(versionInfos, &pHomeInfo, infos) == JFW_PLUGIN_E_NONE) { aCurrentInfo = pHomeInfo; // compare features // if the user does not require any features (nFeatureFlags = 0) // or the Java installation provides all features, then this installation is used if ((pHomeInfo->nFeatures & nFeatureFlags) == nFeatureFlags) { bInfoFound = true; } jfw_freeJavaInfo(pHomeInfo); } // if no Java installation providing all features was detected by using JAVA_HOME, // query PATH for Java installations if (!bInfoFound) { std::vector vecJavaInfosFromPath; if (jfw_plugin_getJavaInfosFromPath( versionInfos, vecJavaInfosFromPath, infos) == JFW_PLUGIN_E_NONE) { std::vector::const_iterator it = vecJavaInfosFromPath.begin(); while(it != vecJavaInfosFromPath.end() && !bInfoFound) { JavaInfo* pJInfo = *it; if (pJInfo != NULL) { // if the current Java installation implements all required features: use it if ((pJInfo->nFeatures & nFeatureFlags) == nFeatureFlags) { aCurrentInfo = pJInfo; bInfoFound = true; } else if (static_cast(aCurrentInfo) == NULL) { // current Java installation does not provide all features // but no Java installation has been detected before // -> remember the current one until one is found // that provides all features aCurrentInfo = pJInfo; } jfw_freeJavaInfo(pJInfo); } ++it; } } } // if no suitable Java installation has been found yet: // first iterate over all vendors to find a suitable Java installation, // then try paths that have been added manually if (!bInfoFound) { //Use every vendor to get Java installations. At the first usable //Java the loop will break typedef std::vector::const_iterator ci_pl; for (ci_pl i = vecVendors.begin(); i != vecVendors.end(); ++i) { const OUString & vendor = *i; jfw::VersionInfo versionInfo = aVendorSettings.getVersionInformation(vendor); //get all installations of one vendor according to minVersion, //maxVersion and excludeVersions sal_Int32 cInfos = 0; JavaInfo** arInfos = NULL; javaPluginError plerr = jfw_plugin_getAllJavaInfos( false, vendor, versionInfo.sMinVersion, versionInfo.sMaxVersion, versionInfo.getExcludeVersions(), versionInfo.getExcludeVersionSize(), & arInfos, & cInfos, infos); if (plerr != JFW_PLUGIN_E_NONE) continue; //iterate over all installations to find the best which has //all features if (cInfos == 0) { rtl_freeMemory(arInfos); continue; } for (int ii = 0; ii < cInfos; ii++) { JavaInfo* pJInfo = arInfos[ii]; //We remember the first installation in aCurrentInfo // if no JavaInfo has been found before if (aCurrentInfo.getLocation().isEmpty()) aCurrentInfo = pJInfo; // compare features // If the user does not require any features (nFeatureFlags = 0) // then the first installation is used if ((pJInfo->nFeatures & nFeatureFlags) == nFeatureFlags) { //the just found Java implements all required features //currently there is only accessibility!!! aCurrentInfo = pJInfo; bInfoFound = true; break; } } //The array returned by jfw_plugin_getAllJavaInfos must be freed as well as //its contents for (int j = 0; j < cInfos; j++) jfw_freeJavaInfo(arInfos[j]); rtl_freeMemory(arInfos); if (bInfoFound) break; //All Java installations found by the current plug-in lib //do not provide the required features. Try the next plug-in } if (static_cast(aCurrentInfo) == NULL) {//The plug-ins did not find a suitable Java. Now try the paths which have been //added manually. //get the list of paths to jre locations which have been added manually const jfw::MergedSettings settings; //node.loadFromSettings(); const std::vector & vecJRELocations = settings.getJRELocations(); //use every plug-in to determine the JavaInfo objects for (ci_pl i = vecVendors.begin(); i != vecVendors.end(); ++i) { const OUString & vendor = *i; jfw::VersionInfo versionInfo = aVendorSettings.getVersionInformation(vendor); typedef std::vector::const_iterator citLoc; for (citLoc it = vecJRELocations.begin(); it != vecJRELocations.end(); ++it) { jfw::CJavaInfo aInfo; javaPluginError err = jfw_plugin_getJavaInfoByPath( *it, vendor, versionInfo.sMinVersion, versionInfo.sMaxVersion, versionInfo.getExcludeVersions(), versionInfo.getExcludeVersionSize(), & aInfo.pInfo); if (err == JFW_PLUGIN_E_NO_JRE) continue; if (err == JFW_PLUGIN_E_FAILED_VERSION) continue; else if (err !=JFW_PLUGIN_E_NONE) return JFW_E_ERROR; if (aInfo) { //We remember the very first installation in aCurrentInfo if (aCurrentInfo.getLocation().isEmpty()) aCurrentInfo = aInfo; // compare features // If the user does not require any features (nFeatureFlags = 0) // then the first installation is used if ((aInfo.getFeatures() & nFeatureFlags) == nFeatureFlags) { //the just found Java implements all required features //currently there is only accessibility!!! aCurrentInfo = aInfo; bInfoFound = true; break; } } }//end iterate over paths if (bInfoFound) break; }// end iterate plug-ins } } if (static_cast(aCurrentInfo)) { jfw::NodeJava javaNode(jfw::NodeJava::USER); javaNode.setJavaInfo(aCurrentInfo,true); javaNode.write(); //remember that this JRE was selected in this process jfw::setJavaSelected(); if (pInfo !=NULL) { //copy to out param *pInfo = aCurrentInfo.cloneJavaInfo(); } } else { errcode = JFW_E_NO_JAVA_FOUND; } } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } sal_Bool SAL_CALL jfw_areEqualJavaInfo( JavaInfo const * pInfoA,JavaInfo const * pInfoB) { if (pInfoA == pInfoB) return sal_True; if (pInfoA == NULL || pInfoB == NULL) return sal_False; OUString sVendor(pInfoA->sVendor); OUString sLocation(pInfoA->sLocation); OUString sVersion(pInfoA->sVersion); rtl::ByteSequence sData(pInfoA->arVendorData); if (sVendor.equals(pInfoB->sVendor) && sLocation.equals(pInfoB->sLocation) && sVersion.equals(pInfoB->sVersion) && pInfoA->nFeatures == pInfoB->nFeatures && pInfoA->nRequirements == pInfoB->nRequirements && sData == pInfoB->arVendorData) { return sal_True; } return sal_False; } void SAL_CALL jfw_freeJavaInfo(JavaInfo *pInfo) { if (pInfo == NULL) return; rtl_uString_release(pInfo->sVendor); rtl_uString_release(pInfo->sLocation); rtl_uString_release(pInfo->sVersion); rtl_byte_sequence_release(pInfo->arVendorData); rtl_freeMemory(pInfo); } javaFrameworkError SAL_CALL jfw_getSelectedJRE(JavaInfo **ppInfo) { javaFrameworkError errcode = JFW_E_NONE; try { osl::MutexGuard guard(jfw::FwkMutex::get()); if (ppInfo == NULL) return JFW_E_INVALID_ARG; if (jfw::getMode() == jfw::JFW_MODE_DIRECT) { OUString sJRE = jfw::BootParams::getJREHome(); jfw::CJavaInfo aInfo; if ((errcode = jfw_getJavaInfoByPath(sJRE.pData, & aInfo.pInfo)) != JFW_E_NONE) throw jfw::FrameworkException( JFW_E_CONFIGURATION, OString( "[Java framework] The JRE specified by the bootstrap " "variable UNO_JAVA_JFW_JREHOME or UNO_JAVA_JFW_ENV_JREHOME " " could not be recognized. Check the values and make sure that you " "use a plug-in library that can recognize that JRE.")); *ppInfo = aInfo.detach(); return JFW_E_NONE; } const jfw::MergedSettings settings; jfw::CJavaInfo aInfo; aInfo.attach(settings.createJavaInfo()); if (! aInfo) { *ppInfo = NULL; return JFW_E_NONE; } //If the javavendors.xml has changed, then the current selected //Java is not valid anymore // /java/javaInfo/@vendorUpdate != javaSelection/updated (javavendors.xml) OString sUpdated = jfw::getElementUpdated(); if (!sUpdated.equals(settings.getJavaInfoAttrVendorUpdate())) return JFW_E_INVALID_SETTINGS; *ppInfo = aInfo.detach(); } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } javaFrameworkError SAL_CALL jfw_isVMRunning(sal_Bool *bRunning) { osl::MutexGuard guard(jfw::FwkMutex::get()); if (bRunning == NULL) return JFW_E_INVALID_ARG; if (g_pJavaVM == NULL) *bRunning = sal_False; else *bRunning = sal_True; return JFW_E_NONE; } javaFrameworkError SAL_CALL jfw_getJavaInfoByPath( rtl_uString *pPath, JavaInfo **ppInfo) { javaFrameworkError errcode = JFW_E_NONE; try { osl::MutexGuard guard(jfw::FwkMutex::get()); if (pPath == NULL || ppInfo == NULL) return JFW_E_INVALID_ARG; OUString ouPath(pPath); jfw::VendorSettings aVendorSettings; std::vector vecVendors = aVendorSettings.getSupportedVendors(); //Use every plug-in library to determine if the path represents a //JRE. If a plugin recognized it then the loop will break typedef std::vector::const_iterator ci_pl; for (ci_pl i = vecVendors.begin(); i != vecVendors.end(); ++i) { const OUString & vendor = *i; jfw::VersionInfo versionInfo = aVendorSettings.getVersionInformation(vendor); //ask the plugin if this is a JRE. //If so check if it meets the version requirements. //Only if it does return a JavaInfo JavaInfo* pInfo = NULL; javaPluginError plerr = jfw_plugin_getJavaInfoByPath( ouPath, vendor, versionInfo.sMinVersion, versionInfo.sMaxVersion, versionInfo.getExcludeVersions(), versionInfo.getExcludeVersionSize(), & pInfo); if (plerr == JFW_PLUGIN_E_NONE) { *ppInfo = pInfo; break; } else if(plerr == JFW_PLUGIN_E_FAILED_VERSION) {//found JRE but it has the wrong version *ppInfo = NULL; errcode = JFW_E_FAILED_VERSION; break; } else if (plerr == JFW_PLUGIN_E_NO_JRE) {// plugin does not recognize this path as belonging to JRE continue; } OSL_ASSERT(false); } if (*ppInfo == NULL && errcode != JFW_E_FAILED_VERSION) errcode = JFW_E_NOT_RECOGNIZED; } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } javaFrameworkError SAL_CALL jfw_setSelectedJRE(JavaInfo const *pInfo) { javaFrameworkError errcode = JFW_E_NONE; try { osl::MutexGuard guard(jfw::FwkMutex::get()); if (jfw::getMode() == jfw::JFW_MODE_DIRECT) return JFW_E_DIRECT_MODE; //check if pInfo is the selected JRE JavaInfo *currentInfo = NULL; errcode = jfw_getSelectedJRE( & currentInfo); if (errcode != JFW_E_NONE && errcode != JFW_E_INVALID_SETTINGS) return errcode; if (!jfw_areEqualJavaInfo(currentInfo, pInfo)) { jfw::NodeJava node(jfw::NodeJava::USER); node.setJavaInfo(pInfo, false); node.write(); //remember that the JRE was selected in this process jfw::setJavaSelected(); } jfw_freeJavaInfo(currentInfo); } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } javaFrameworkError SAL_CALL jfw_setEnabled(sal_Bool bEnabled) { javaFrameworkError errcode = JFW_E_NONE; try { osl::MutexGuard guard(jfw::FwkMutex::get()); if (jfw::getMode() == jfw::JFW_MODE_DIRECT) return JFW_E_DIRECT_MODE; if (!g_bEnabledSwitchedOn && bEnabled) { //When the process started then Enabled was false. //This is first time enabled is set to true. //That means, no preparational work has been done, such as setting the //LD_LIBRARY_PATH, etc. //check if Enabled is false; const jfw::MergedSettings settings; if (!settings.getEnabled()) g_bEnabledSwitchedOn = true; } jfw::NodeJava node(jfw::NodeJava::USER); node.setEnabled(bEnabled); node.write(); } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } javaFrameworkError SAL_CALL jfw_getEnabled(sal_Bool *pbEnabled) { javaFrameworkError errcode = JFW_E_NONE; try { if (jfw::getMode() == jfw::JFW_MODE_DIRECT) return JFW_E_DIRECT_MODE; osl::MutexGuard guard(jfw::FwkMutex::get()); if (pbEnabled == NULL) return JFW_E_INVALID_ARG; jfw::MergedSettings settings; *pbEnabled = settings.getEnabled(); } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } javaFrameworkError SAL_CALL jfw_setVMParameters( rtl_uString * * arOptions, sal_Int32 nLen) { javaFrameworkError errcode = JFW_E_NONE; try { osl::MutexGuard guard(jfw::FwkMutex::get()); if (jfw::getMode() == jfw::JFW_MODE_DIRECT) return JFW_E_DIRECT_MODE; jfw::NodeJava node(jfw::NodeJava::USER); if (arOptions == NULL && nLen != 0) return JFW_E_INVALID_ARG; node.setVmParameters(arOptions, nLen); node.write(); } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } javaFrameworkError SAL_CALL jfw_getVMParameters( rtl_uString *** parOptions, sal_Int32 * pLen) { javaFrameworkError errcode = JFW_E_NONE; try { osl::MutexGuard guard(jfw::FwkMutex::get()); if (jfw::getMode() == jfw::JFW_MODE_DIRECT) return JFW_E_DIRECT_MODE; if (parOptions == NULL || pLen == NULL) return JFW_E_INVALID_ARG; const jfw::MergedSettings settings; settings.getVmParametersArray(parOptions, pLen); } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } javaFrameworkError SAL_CALL jfw_setUserClassPath(rtl_uString * pCp) { javaFrameworkError errcode = JFW_E_NONE; try { osl::MutexGuard guard(jfw::FwkMutex::get()); if (jfw::getMode() == jfw::JFW_MODE_DIRECT) return JFW_E_DIRECT_MODE; jfw::NodeJava node(jfw::NodeJava::USER); if (pCp == NULL) return JFW_E_INVALID_ARG; node.setUserClassPath(pCp); node.write(); } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } javaFrameworkError SAL_CALL jfw_getUserClassPath(rtl_uString ** ppCP) { javaFrameworkError errcode = JFW_E_NONE; try { osl::MutexGuard guard(jfw::FwkMutex::get()); if (jfw::getMode() == jfw::JFW_MODE_DIRECT) return JFW_E_DIRECT_MODE; if (ppCP == NULL) return JFW_E_INVALID_ARG; const jfw::MergedSettings settings; *ppCP = settings.getUserClassPath().pData; rtl_uString_acquire(*ppCP); } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } javaFrameworkError SAL_CALL jfw_addJRELocation(rtl_uString * sLocation) { javaFrameworkError errcode = JFW_E_NONE; try { osl::MutexGuard guard(jfw::FwkMutex::get()); if (jfw::getMode() == jfw::JFW_MODE_DIRECT) return JFW_E_DIRECT_MODE; jfw::NodeJava node(jfw::NodeJava::USER); if (sLocation == NULL) return JFW_E_INVALID_ARG; node.load(); node.addJRELocation(sLocation); node.write(); } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } javaFrameworkError SAL_CALL jfw_getJRELocations( rtl_uString *** parLocations, sal_Int32 *pLen) { javaFrameworkError errcode = JFW_E_NONE; try { osl::MutexGuard guard(jfw::FwkMutex::get()); if (jfw::getMode() == jfw::JFW_MODE_DIRECT) return JFW_E_DIRECT_MODE; if (parLocations == NULL || pLen == NULL) return JFW_E_INVALID_ARG; const jfw::MergedSettings settings; settings.getJRELocations(parLocations, pLen); } catch (const jfw::FrameworkException& e) { errcode = e.errorCode; fprintf(stderr, "%s\n", e.message.getStr()); OSL_FAIL(e.message.getStr()); } return errcode; } javaFrameworkError jfw_existJRE(const JavaInfo *pInfo, sal_Bool *exist) { //get the function jfw_plugin_existJRE jfw::VendorSettings aVendorSettings; jfw::CJavaInfo aInfo; aInfo = pInfo; //makes a copy of pInfo javaPluginError plerr = jfw_plugin_existJRE(pInfo, exist); javaFrameworkError ret = JFW_E_NONE; switch (plerr) { case JFW_PLUGIN_E_NONE: ret = JFW_E_NONE; break; case JFW_PLUGIN_E_INVALID_ARG: ret = JFW_E_INVALID_ARG; break; case JFW_PLUGIN_E_ERROR: ret = JFW_E_ERROR; break; default: ret = JFW_E_ERROR; } return ret; } void SAL_CALL jfw_lock() { jfw::FwkMutex::get().acquire(); } void SAL_CALL jfw_unlock() { jfw::FwkMutex::get().release(); } namespace jfw { CJavaInfo::CJavaInfo(): pInfo(0) { } CJavaInfo::CJavaInfo(const CJavaInfo & info) { pInfo = copyJavaInfo(info.pInfo); } CJavaInfo::CJavaInfo(::JavaInfo * info, _transfer_ownership) { pInfo = info; } CJavaInfo CJavaInfo::createWrapper(::JavaInfo* info) { return CJavaInfo(info, TRANSFER); } void CJavaInfo::attach(::JavaInfo * info) { jfw_freeJavaInfo(pInfo); pInfo = info; } ::JavaInfo * CJavaInfo::detach() { JavaInfo * tmp = pInfo; pInfo = NULL; return tmp; } CJavaInfo::~CJavaInfo() { jfw_freeJavaInfo(pInfo); } JavaInfo * CJavaInfo::copyJavaInfo(const JavaInfo * pInfo) { if (pInfo == NULL) return NULL; JavaInfo* newInfo = static_cast(rtl_allocateMemory(sizeof(JavaInfo))); if (newInfo) { memcpy(newInfo, pInfo, sizeof(JavaInfo)); rtl_uString_acquire(pInfo->sVendor); rtl_uString_acquire(pInfo->sLocation); rtl_uString_acquire(pInfo->sVersion); rtl_byte_sequence_acquire(pInfo->arVendorData); } return newInfo; } JavaInfo* CJavaInfo::cloneJavaInfo() const { if (pInfo == NULL) return NULL; return copyJavaInfo(pInfo); } CJavaInfo & CJavaInfo::operator = (const CJavaInfo& info) { if (&info == this) return *this; jfw_freeJavaInfo(pInfo); pInfo = copyJavaInfo(info.pInfo); return *this; } CJavaInfo & CJavaInfo::operator = (const ::JavaInfo* info) { if (info == pInfo) return *this; jfw_freeJavaInfo(pInfo); pInfo = copyJavaInfo(info); return *this; } OUString CJavaInfo::getLocation() const { if (pInfo) return OUString(pInfo->sLocation); else return OUString(); } sal_uInt64 CJavaInfo::getFeatures() const { if (pInfo) return pInfo->nFeatures; else return 0l; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */