/** @file * * CFGLDR - Configuration Loader */ /* * Copyright (C) 2006-2007 innotek GmbH * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License as published by the Free Software Foundation, * in version 2 as it comes in the "COPYING" file of the VirtualBox OSE * distribution. VirtualBox OSE is distributed in the hope that it will * be useful, but WITHOUT ANY WARRANTY of any kind. */ /* Define STANDALONE_TEST for making a executable that * will load and parse a XML file */ // #define STANDALONE_TEST /** @page pg_cfgldr CFGLDR - The Configuration Loader * * The configuration loader loads and keeps the configuration of VBox * session. It will be used by VBox components to retrieve configuration * values at startup and to change values if necessary. * * When VBox is started, it must call CFGLDRLoad to load global * VBox configuration and then VM configuration. * * Handles then used by VBox components to retrieve configuration * values. Components must query their values at startup. * Configuration values can be changed only by respective * component and the component must call CFGLDRSet*, to change the * value in configuration file. * * Values are accessed only by name. It is important for components to * use CFGLDRQuery* only at startup for performance reason. * * All CFGLDR* functions that take a CFGHANDLE or CFGNODE as their first * argument return the VERR_INVALID_HANDLE status code if the argument is * null handle (i.e. its value is zero). */ #define VBOX_XML_WRITER_FILTER #define VBOX_XML_XSLT #define _CRT_SECURE_NO_DEPRECATE #define LOG_GROUP LOG_GROUP_MAIN #include #include #include #include #include #include #include #include /// @todo (dmik) until RTTimeImplode and friends are done #include #include #include #include #include #include #include #include #include #include #include #include #ifdef VBOX_XML_WRITER_FILTER #include #endif #ifdef VBOX_XML_XSLT #include #include #include #include #include #include #include XALAN_CPP_NAMESPACE_USE // generated file #include "SettingsConverter_xsl.h" #endif // VBOX_XML_XSLT // Little hack so we don't have to include the COM stuff // Note that those defines need to be made before we include // cfgldr.h so that the prototypes can be compiled. #ifndef BSTR #define OLECHAR wchar_t #define BSTR void* #if defined(RT_OS_WINDOWS) extern "C" BSTR __stdcall SysAllocString(const OLECHAR* sz); #else extern "C" BSTR SysAllocString(const OLECHAR* sz); #endif #endif #include "Logging.h" #include #include #include // for sscanf #ifdef STANDALONE_TEST # include # include #endif XERCES_CPP_NAMESPACE_USE // Helpers //////////////////////////////////////////////////////////////////////////////// inline unsigned char fromhex (RTUTF16 hexdigit) { if (hexdigit >= '0' && hexdigit <= '9') return hexdigit - '0'; if (hexdigit >= 'A' && hexdigit <= 'F') return hexdigit - 'A' + 0xA; if (hexdigit >= 'a' && hexdigit <= 'f') return hexdigit - 'a' + 0xa; return 0xFF; // error indicator } inline RTUTF16 tohex (unsigned char ch) { return (ch < 0xA) ? ch + '0' : ch - 0xA + 'A'; } /** * Converts a string of hex digits to memory bytes. * * @param puszValue String of hex digits to convert. * @param pvValue Where to store converted bytes. * @param cbValue Size of the @a pvValue array. * @param pcbValue Where to store the actual number of stored bytes. * * @return IPRT status code. */ int wstr_to_bin (PCRTUTF16 puszValue, void *pvValue, unsigned cbValue, unsigned *pcbValue) { int rc = VINF_SUCCESS; unsigned count = 0; unsigned char *dst = (unsigned char *) pvValue; while (*puszValue) { unsigned char b = fromhex (*puszValue); if (b == 0xFF) { /* it was not a valid hex digit */ rc = VERR_CFG_INVALID_FORMAT; break; } if (count < cbValue) { *dst = b; } puszValue++; if (!*puszValue) { rc = VERR_CFG_INVALID_FORMAT; break; } b = fromhex (*puszValue++); if (b == 0xFF) { /* it was not a valid hex digit */ rc = VERR_CFG_INVALID_FORMAT; break; } if (count < cbValue) { *dst = ((*dst) << 4) + b; dst++; } count++; } *pcbValue = count; return rc; } /** * Converts memory bytes to a null-terminated string of hex values. * * @param pvValue Memory array to convert. * @param cbValue Number of bytes in the @a pvValue array. * @param puszValue Where to store the pointer to the resulting string. * On success, this string should be freed using RTUtf16Free(). * * @return IPRT status code. */ static int bin_to_wstr (const void *pvValue, unsigned cbValue, PRTUTF16 *puszValue) { int rc = VINF_SUCCESS; /* each byte will produce two hex digits and there will be nul * terminator */ *puszValue = (PRTUTF16) RTMemTmpAlloc (sizeof (RTUTF16) * (cbValue * 2 + 1)); if (!*puszValue) { rc = VERR_NO_MEMORY; } else { unsigned i = 0; unsigned char *src = (unsigned char *) pvValue; PRTUTF16 dst = *puszValue; for (; i < cbValue; i++, src++) { *dst++ = tohex ((*src) >> 4); *dst++ = tohex ((*src) & 0xF); } *dst = '\0'; } return rc; } // CfgNode //////////////////////////////////////////////////////////////////////////////// class CfgNode { private: friend class CfgLoader; CfgLoader *pConfiguration; CfgNode *next; CfgNode *prev; DOMNode *pdomnode; CfgNode (CfgLoader *pcfg); virtual ~CfgNode (); int resolve (DOMNode *root, const char *pszName, unsigned uIndex, unsigned flags); int getValueString (const char *pszName, PRTUTF16 *ppwszValue); int setValueString (const char *pszName, PRTUTF16 pwszValue); DOMNode *findChildText (void); public: enum { fSearch = 0, fCreateIfNotExists = 1, fAppend = 2 }; static int ReleaseNode (CfgNode *pnode); static int DeleteNode (CfgNode *pnode); int CreateChildNode (const char *pszName, CfgNode **ppnode); int AppendChildNode (const char *pszName, CfgNode **ppnode); int GetChild (const char *pszName, unsigned uIndex, CfgNode **ppnode); int CountChildren (const char *pszChildName, unsigned *pCount); int QueryUInt32 (const char *pszName, uint32_t *pulValue); int SetUInt32 (const char *pszName, uint32_t ulValue, unsigned int uiBase = 0); int QueryUInt64 (const char *pszName, uint64_t *pullValue); int SetUInt64 (const char *pszName, uint64_t ullValue, unsigned int uiBase = 0); int QueryInt32 (const char *pszName, int32_t *plValue); int SetInt32 (const char *pszName, int32_t lValue, unsigned int uiBase = 0); int QueryInt64 (const char *pszName, int64_t *pllValue); int SetInt64 (const char *pszName, int64_t llValue, unsigned int uiBase = 0); int QueryUInt16 (const char *pszName, uint16_t *puhValue); int SetUInt16 (const char *pszName, uint16_t uhValue, unsigned int uiBase = 0); int QueryBin (const char *pszName, void *pvValue, unsigned cbValue, unsigned *pcbValue); int SetBin (const char *pszName, const void *pvValue, unsigned cbValue); int QueryString (const char *pszName, void **pValue, unsigned cbValue, unsigned *pcbValue, bool returnUtf16); int SetString (const char *pszName, const char *pszValue, unsigned cbValue, bool isUtf16); int QueryBool (const char *pszName, bool *pfValue); int SetBool (const char *pszName, bool fValue); int DeleteAttribute (const char *pszName); }; // CfgLoader //////////////////////////////////////////////////////////////////////////////// class CfgLoader { private: friend class CfgNode; PRTUTF16 pwszOriginalFilename; RTFILE hOriginalFileHandle; /** r=bird: this is supposed to mean 'handle to the orignal file handle'? The name is * overloaded with too many 'handles'... That goes for those hFileHandle parameters too. * hOriginalFile / FileOriginal and hFile / File should do by a long way. */ CfgNode *pfirstnode; DOMBuilder *builder; DOMNode *root; int getNode (DOMNode *prootnode, const char *pszName, unsigned uIndex, CfgNode **ppnode, unsigned flags); DOMDocument *Document(void) { return static_cast(root); }; public: CfgLoader (); virtual ~CfgLoader (); int Load (const char *pszFileName, RTFILE hFileHandle, const char *pszExternalSchemaLocation, bool bDoNamespaces, PFNCFGLDRENTITYRESOLVER pfnEntityResolver, char **ppszErrorMessage); int Save (const char *pszFilename, RTFILE hFileHandle, char **ppszErrorMessage); int Create (); #ifdef VBOX_XML_XSLT int Transform (const char *pszTemlateLocation, PFNCFGLDRENTITYRESOLVER pfnEntityResolver, char **ppszErrorMessage); #endif static int FreeConfiguration (CfgLoader *pcfg); int CreateNode (const char *pszName, CfgNode **ppnode); int GetNode (const char *pszName, unsigned uIndex, CfgNode **ppnode); }; // VBoxWriterFilter //////////////////////////////////////////////////////////////////////////////// #ifdef VBOX_XML_WRITER_FILTER class VBoxWriterFilter : public DOMWriterFilter { public: VBoxWriterFilter (unsigned long whatToShow = DOMNodeFilter::SHOW_ALL); ~VBoxWriterFilter () {}; virtual short acceptNode (const DOMNode*) const; virtual unsigned long getWhatToShow () const { return fWhatToShow; }; virtual void setWhatToShow (unsigned long toShow) { fWhatToShow = toShow; }; private: unsigned long fWhatToShow; }; VBoxWriterFilter::VBoxWriterFilter(unsigned long whatToShow) : fWhatToShow (whatToShow) { } short VBoxWriterFilter::acceptNode(const DOMNode* node) const { switch (node->getNodeType()) { case DOMNode::TEXT_NODE: { /* Reject empty nodes */ const XMLCh *pxmlch = node->getNodeValue (); if (pxmlch) { while (*pxmlch != chNull) { if ( *pxmlch == chLF || *pxmlch == chCR || *pxmlch == chSpace || *pxmlch == chHTab ) { pxmlch++; continue; } break; } if (*pxmlch != chNull) { /* Accept the node because it contains non space characters */ return DOMNodeFilter::FILTER_ACCEPT; } } return DOMNodeFilter::FILTER_REJECT; } } return DOMNodeFilter::FILTER_ACCEPT; } #endif // CfgLdrInputSource //////////////////////////////////////////////////////////////////////////////// /** * A wrapper around RTFILE or a char buffer that acts like a DOMInputSource * and therefore can be with DOMBuilder instances. */ class CfgLdrInputSource : public DOMInputSource { public: CfgLdrInputSource (PCFGLDRENTITY pcEntity, const char *pcszSystemId); virtual ~CfgLdrInputSource() { release(); } // Functions introduced in DOM Level 3 const XMLCh *getEncoding () const { return NULL; } const XMLCh *getPublicId () const { return NULL; } const XMLCh *getSystemId () const { return (const XMLCh *)m_pwszSystemId; } const XMLCh *getBaseURI () const { return (const XMLCh *)m_pwszBaseURI; } void setEncoding (const XMLCh *const /* encodingStr */) { AssertMsgFailed (("Not implemented!\n")); } void setPublicId (const XMLCh *const /* publicId */) { AssertMsgFailed (("Not implemented!\n")); } void setSystemId (const XMLCh *const /* systemId */) { AssertMsgFailed (("Not implemented!\n")); } void setBaseURI (const XMLCh *const /* baseURI */) { AssertMsgFailed (("Not implemented!\n")); } // Non-standard Extension BinInputStream *makeStream() const; void setIssueFatalErrorIfNotFound (const bool /* flag */) {} bool getIssueFatalErrorIfNotFound() const { return true; } void release(); private: class FileHandleInputStream : public BinInputStream { public: FileHandleInputStream (RTFILE hFileHandle); unsigned int curPos() const; unsigned int readBytes (XMLByte *const toFill, const unsigned int maxToRead); private: RTFILE m_hFileHandle; uint64_t m_cbPos; }; void init (const char *pcszSystemId); CFGLDRENTITY m_entity; PRTUTF16 m_pwszSystemId; PRTUTF16 m_pwszBaseURI; }; CfgLdrInputSource::CfgLdrInputSource (PCFGLDRENTITY pcEntity, const char *pcszSystemId) : m_pwszSystemId (NULL), m_pwszBaseURI (NULL) { Assert (pcEntity && pcEntity->enmType != CFGLDRENTITYTYPE_INVALID); // make a copy of the entity descriptor m_entity = *pcEntity; Assert (pcszSystemId); int rc = RTStrToUtf16 (pcszSystemId, &m_pwszSystemId); AssertRC (rc); char *pszBaseURI = NULL; pszBaseURI = RTStrDup (pcszSystemId); Assert (pszBaseURI); RTPathStripFilename (pszBaseURI); rc = RTStrToUtf16 (pszBaseURI, &m_pwszBaseURI); AssertRC (rc); } void CfgLdrInputSource::release() { switch (m_entity.enmType) { case CFGLDRENTITYTYPE_HANDLE: if (m_entity.u.handle.bClose) RTFileClose (m_entity.u.handle.hFile); break; case CFGLDRENTITYTYPE_MEMORY: if (m_entity.u.memory.bFree) RTMemTmpFree (m_entity.u.memory.puchBuf); break; default: break; }; m_entity.enmType = CFGLDRENTITYTYPE_INVALID; if (m_pwszBaseURI) { RTUtf16Free (m_pwszBaseURI); m_pwszBaseURI = NULL; } if (m_pwszSystemId) { RTUtf16Free (m_pwszSystemId); m_pwszSystemId = NULL; } } BinInputStream *CfgLdrInputSource::makeStream() const { BinInputStream *stream = NULL; switch (m_entity.enmType) { case CFGLDRENTITYTYPE_HANDLE: stream = new FileHandleInputStream (m_entity.u.handle.hFile); break; case CFGLDRENTITYTYPE_MEMORY: // puchBuf is neither copied nor destructed by BinMemInputStream stream = new BinMemInputStream (m_entity.u.memory.puchBuf, m_entity.u.memory.cbBuf, BinMemInputStream::BufOpt_Reference); break; default: AssertMsgFailed (("Invalid resolver entity type!\n")); break; }; return stream; } CfgLdrInputSource::FileHandleInputStream::FileHandleInputStream (RTFILE hFileHandle) : m_hFileHandle (hFileHandle), m_cbPos (0) { } unsigned int CfgLdrInputSource::FileHandleInputStream::curPos() const { AssertMsg (!(m_cbPos >> 32), ("m_cbPos exceeds 32 bits (%16Xll)\n", m_cbPos)); return (unsigned int)m_cbPos; } unsigned int CfgLdrInputSource::FileHandleInputStream::readBytes ( XMLByte *const toFill, const unsigned int maxToRead ) { /// @todo (dmik) trhow the appropriate exceptions if we fail to write int rc; NOREF (rc); // memorize the current position uint64_t cbOriginalPos = RTFileTell (m_hFileHandle); Assert (cbOriginalPos != ~0ULL); // set the new position rc = RTFileSeek (m_hFileHandle, m_cbPos, RTFILE_SEEK_BEGIN, NULL); AssertRC (rc); // read from the file size_t cbRead = 0; rc = RTFileRead (m_hFileHandle, toFill, maxToRead, &cbRead); AssertRC (rc); // adjust the private position m_cbPos += cbRead; // restore the current position rc = RTFileSeek (m_hFileHandle, cbOriginalPos, RTFILE_SEEK_BEGIN, NULL); AssertRC (rc); return (unsigned int)cbRead; } // CfgLdrFormatTarget //////////////////////////////////////////////////////////////////////////////// class CfgLdrFormatTarget : public XMLFormatTarget { public: CfgLdrFormatTarget (PCFGLDRENTITY pcEntity); ~CfgLdrFormatTarget(); // virtual XMLFormatTarget methods void writeChars (const XMLByte *const toWrite, const unsigned int count, XMLFormatter *const formatter); void flush() {} private: CFGLDRENTITY m_entity; }; CfgLdrFormatTarget::CfgLdrFormatTarget (PCFGLDRENTITY pcEntity) { Assert (pcEntity && pcEntity->enmType != CFGLDRENTITYTYPE_INVALID); // make a copy of the entity descriptor m_entity = *pcEntity; switch (m_entity.enmType) { case CFGLDRENTITYTYPE_HANDLE: int rc; // start writting from the beginning rc = RTFileSeek (m_entity.u.handle.hFile, 0, RTFILE_SEEK_BEGIN, NULL); AssertRC (rc); NOREF (rc); break; case CFGLDRENTITYTYPE_MEMORY: AssertMsgFailed (("Unsupported entity type!\n")); break; default: break; }; } CfgLdrFormatTarget::~CfgLdrFormatTarget() { switch (m_entity.enmType) { case CFGLDRENTITYTYPE_HANDLE: { int rc; // truncate the file upto the size actually written uint64_t cbPos = RTFileTell (m_entity.u.handle.hFile); Assert (cbPos != ~0ULL); rc = RTFileSetSize (m_entity.u.handle.hFile, cbPos); AssertRC (rc); // reset the position to he beginning rc = RTFileSeek (m_entity.u.handle.hFile, 0, RTFILE_SEEK_BEGIN, NULL); AssertRC (rc); NOREF (rc); if (m_entity.u.handle.bClose) RTFileClose (m_entity.u.handle.hFile); break; } case CFGLDRENTITYTYPE_MEMORY: break; default: break; }; } void CfgLdrFormatTarget::writeChars (const XMLByte *const toWrite, const unsigned int count, XMLFormatter *const /* formatter */) { /// @todo (dmik) trhow the appropriate exceptions if we fail to write switch (m_entity.enmType) { case CFGLDRENTITYTYPE_HANDLE: int rc; rc = RTFileWrite (m_entity.u.handle.hFile, toWrite, count, NULL); AssertRC (rc); NOREF (rc); break; case CFGLDRENTITYTYPE_MEMORY: AssertMsgFailed (("Unsupported entity type!\n")); break; default: AssertMsgFailed (("Invalid entity type!\n")); break; }; } // CfgLdrEntityResolver //////////////////////////////////////////////////////////////////////////////// /** * A wrapper around FNCFGLDRENTITYRESOLVER callback that acts like a * DOMEntityResolver and therefore can be used with DOMBuilder instances. */ class CfgLdrEntityResolver : public DOMEntityResolver { public: CfgLdrEntityResolver (PFNCFGLDRENTITYRESOLVER pfnEntityResolver) : m_pfnEntityResolver (pfnEntityResolver) {} // Functions introduced in DOM Level 2 DOMInputSource *resolveEntity (const XMLCh *const publicId, const XMLCh *const systemId, const XMLCh *const baseURI); private: PFNCFGLDRENTITYRESOLVER m_pfnEntityResolver; }; DOMInputSource *CfgLdrEntityResolver::resolveEntity (const XMLCh *const publicId, const XMLCh *const systemId, const XMLCh *const baseURI) { if (!m_pfnEntityResolver) return NULL; DOMInputSource *source = NULL; int rc = VINF_SUCCESS; char *pszPublicId = NULL; char *pszSystemId = NULL; char *pszBaseURI = NULL; if (publicId) rc = RTUtf16ToUtf8 (publicId, &pszPublicId); if (VBOX_SUCCESS (rc)) { if (systemId) rc = RTUtf16ToUtf8 (systemId, &pszSystemId); if (VBOX_SUCCESS (rc)) { if (baseURI) rc = RTUtf16ToUtf8 (baseURI, &pszBaseURI); if (VBOX_SUCCESS (rc)) { CFGLDRENTITY entity; rc = m_pfnEntityResolver (pszPublicId, pszSystemId, pszBaseURI, &entity); if (rc == VINF_SUCCESS) source = new CfgLdrInputSource (&entity, pszSystemId); } } } if (pszBaseURI) RTStrFree (pszBaseURI); if (pszSystemId) RTStrFree (pszSystemId); if (pszPublicId) RTStrFree (pszPublicId); return source; } // CfgLdrErrorHandler //////////////////////////////////////////////////////////////////////////////// /** * An error handler that accumulates all error messages in a single UTF-8 string. */ class CfgLdrErrorHandler : public DOMErrorHandler #ifdef VBOX_XML_XSLT , public ProblemListener #endif { public: CfgLdrErrorHandler(); ~CfgLdrErrorHandler(); bool hasErrors() { return m_pszBuf != NULL; } /** Transfers ownership of the string to the caller and resets the handler */ char *takeErrorMessage() { char *pszBuf = m_pszBuf; m_pszBuf = NULL; return pszBuf; } // Functions introduced in DOM Level 3 bool handleError (const DOMError &domError); #ifdef VBOX_XML_XSLT // Xalan ProblemListener interface void setPrintWriter (PrintWriter *pw) {} void problem (eProblemSource where, eClassification classification, const XalanNode *sourceNode, const ElemTemplateElement *styleNode, const XalanDOMString &msg, const XalanDOMChar *uri, int lineNo, int charOffset); #endif private: char *m_pszBuf; }; CfgLdrErrorHandler::CfgLdrErrorHandler() : m_pszBuf (NULL) { } CfgLdrErrorHandler::~CfgLdrErrorHandler() { if (m_pszBuf) RTMemTmpFree (m_pszBuf); } bool CfgLdrErrorHandler::handleError (const DOMError &domError) { const char *pszSeverity = NULL; switch (domError.getSeverity()) { case DOMError::DOM_SEVERITY_WARNING: pszSeverity = "WARNING: "; case DOMError::DOM_SEVERITY_ERROR: pszSeverity = "ERROR: "; case DOMError::DOM_SEVERITY_FATAL_ERROR: pszSeverity = "FATAL ERROR: "; } char *pszLocation = NULL; const DOMLocator *pLocation = domError.getLocation(); if (pLocation) { static const char Location[] = "\nLocation: '%s', line %d, column %d"; char *pszURI = NULL; if (pLocation->getURI()) RTUtf16ToUtf8 (pLocation->getURI(), &pszURI); size_t cbLocation = sizeof (Location) + (pszURI ? strlen (pszURI) : 10 /* NULL */) + 10 + 10 + 1 /* line & column & \0 */; pszLocation = (char *) RTMemTmpAllocZ (cbLocation); RTStrPrintf (pszLocation, cbLocation, Location, pszURI, pLocation->getLineNumber(), pLocation->getColumnNumber()); if (pszURI) RTStrFree (pszURI); } LogFlow (("CfgLdrErrorHandler::handleError():\n %s%ls%s\n", pszSeverity, domError.getMessage(), pszLocation)); char *pszMsg = NULL; if (domError.getMessage()) RTUtf16ToUtf8 (domError.getMessage(), &pszMsg); size_t cbNewBuf = (m_pszBuf ? strlen (m_pszBuf) : 0) + (pszSeverity ? strlen (pszSeverity) : 0) + (pszMsg ? strlen (pszMsg) : 0) + (pszLocation ? strlen (pszLocation) : 0); char *pszNewBuf = (char *) RTMemTmpAllocZ (cbNewBuf + 2 /* \n + \0 */); if (m_pszBuf) { strcpy (pszNewBuf, m_pszBuf); strcat (pszNewBuf, "\n"); } if (pszSeverity) strcat (pszNewBuf, pszSeverity); if (pszMsg) strcat (pszNewBuf, pszMsg); if (pszLocation) strcat (pszNewBuf, pszLocation); if (m_pszBuf) RTMemTmpFree (m_pszBuf); m_pszBuf = pszNewBuf; if (pszLocation) RTMemTmpFree (pszLocation); if (pszMsg) RTStrFree (pszMsg); // fail on any error when possible return false; } #ifdef VBOX_XML_XSLT void CfgLdrErrorHandler::problem (eProblemSource where, eClassification classification, const XalanNode *sourceNode, const ElemTemplateElement *styleNode, const XalanDOMString &msg, const XalanDOMChar *uri, int lineNo, int charOffset) { const char *pszClass = NULL; switch (classification) { case eMESSAGE: pszClass = "INFO: "; case eWARNING: pszClass = "WARNING: "; case eERROR: pszClass = "ERROR: "; } LogFlow (("CfgLdrErrorHandler::problem():\n %s%ls\n", pszClass, msg.c_str())); char *pszMsg = NULL; if (msg.c_str()) RTUtf16ToUtf8 (msg.c_str(), &pszMsg); size_t cbNewBuf = (m_pszBuf ? strlen (m_pszBuf) : 0) + (pszClass ? strlen (pszClass) : 0) + (pszMsg ? strlen (pszMsg) : 0); char *pszNewBuf = (char *) RTMemTmpAllocZ (cbNewBuf + 2 /* \n + \0 */); if (m_pszBuf) { strcpy (pszNewBuf, m_pszBuf); strcat (pszNewBuf, "\n"); } if (pszClass) strcat (pszNewBuf, pszClass); if (pszMsg) strcat (pszNewBuf, pszMsg); if (m_pszBuf) RTStrFree (m_pszBuf); m_pszBuf = RTStrDup (pszNewBuf); if (pszNewBuf) RTMemTmpFree (pszNewBuf); if (pszMsg) RTStrFree (pszMsg); } #endif // //////////////////////////////////////////////////////////////////////////////// static int xmlInitialized = 0; static int initXML (void) { try { XMLPlatformUtils::Initialize(); } catch(...) { return 0; } return (xmlInitialized = 1); } static void terminateXML (void) { if (xmlInitialized) { XMLPlatformUtils::Terminate(); xmlInitialized = 0; } } /* CfgLoader implementation */ CfgLoader::CfgLoader () : pwszOriginalFilename (NULL), hOriginalFileHandle (NIL_RTFILE), pfirstnode (NULL), builder (NULL), root (NULL) { } CfgLoader::~CfgLoader () { if (pwszOriginalFilename) { RTUtf16Free (pwszOriginalFilename); } if (builder) { /* Configuration was parsed from a file. * Parser owns root and will delete root. */ builder->release(); } else if (root) { /* This is new, just created configuration. * root is new object created by DOMImplementation::createDocument * We have to delete root. */ root->release(); } } int CfgLoader::Load (const char *pszFileName, RTFILE hFileHandle, const char *pszExternalSchemaLocation, bool bDoNamespaces, PFNCFGLDRENTITYRESOLVER pfnEntityResolver, char **ppszErrorMessage) { if (!xmlInitialized) return VERR_NOT_SUPPORTED; Assert (!root && !pwszOriginalFilename); if (root || pwszOriginalFilename) return VERR_ALREADY_LOADED; static const XMLCh LS[] = { chLatin_L, chLatin_S, chNull }; DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation (LS); if (!impl) return VERR_NOT_SUPPORTED; // note: // member variables allocated here (builder, pwszOriginalFilename) are not // freed in case of error because CFGLDRLoad() that calls this method will // delete this instance (and all members) if we return a failure from here builder = static_cast (impl)-> createDOMBuilder (DOMImplementationLS::MODE_SYNCHRONOUS, 0); if (!builder) return VERR_NOT_SUPPORTED; int rc = VINF_SUCCESS; if (ppszErrorMessage) *ppszErrorMessage = NULL; // set parser's features Assert (builder->canSetFeature (XMLUni::fgDOMDatatypeNormalization, true)); if (builder->canSetFeature (XMLUni::fgDOMDatatypeNormalization, true)) builder->setFeature (XMLUni::fgDOMDatatypeNormalization, true); else return VERR_NOT_SUPPORTED; if (bDoNamespaces) { Assert (builder->canSetFeature (XMLUni::fgDOMNamespaces, true)); if (builder->canSetFeature (XMLUni::fgDOMNamespaces, true)) builder->setFeature (XMLUni::fgDOMNamespaces, true); else return VERR_NOT_SUPPORTED; } if (pszExternalSchemaLocation) { // set validation related features & properties Assert (builder->canSetFeature (XMLUni::fgDOMValidation, true)); if (builder->canSetFeature (XMLUni::fgDOMValidation, true)) builder->setFeature (XMLUni::fgDOMValidation, true); else return VERR_NOT_SUPPORTED; Assert (builder->canSetFeature (XMLUni::fgXercesSchema, true)); if (builder->canSetFeature (XMLUni::fgXercesSchema, true)) builder->setFeature (XMLUni::fgXercesSchema, true); else return VERR_NOT_SUPPORTED; Assert (builder->canSetFeature (XMLUni::fgXercesSchemaFullChecking, true)); if (builder->canSetFeature (XMLUni::fgXercesSchemaFullChecking, true)) builder->setFeature (XMLUni::fgXercesSchemaFullChecking, true); else return VERR_NOT_SUPPORTED; PRTUTF16 pwszExternalSchemaLocation = NULL; rc = RTStrToUtf16 (pszExternalSchemaLocation, &pwszExternalSchemaLocation); if (VBOX_FAILURE (rc)) return rc; if (bDoNamespaces) { // set schema that supports namespaces builder->setProperty (XMLUni::fgXercesSchemaExternalSchemaLocation, pwszExternalSchemaLocation); } else { // set schema that doesn't support namespaces builder->setProperty (XMLUni::fgXercesSchemaExternalNoNameSpaceSchemaLocation, pwszExternalSchemaLocation); } RTUtf16Free (pwszExternalSchemaLocation); } hOriginalFileHandle = hFileHandle; rc = RTStrToUtf16 (pszFileName, &pwszOriginalFilename); if (VBOX_FAILURE (rc)) return rc; CfgLdrEntityResolver entityResolver (pfnEntityResolver); builder->setEntityResolver (&entityResolver); CfgLdrErrorHandler errorHandler; builder->setErrorHandler (&errorHandler); try { if (hFileHandle != NIL_RTFILE) { CFGLDRENTITY entity; entity.enmType = CFGLDRENTITYTYPE_HANDLE; entity.u.handle.hFile = hFileHandle; entity.u.handle.bClose = false; CfgLdrInputSource source (&entity, pszFileName); root = builder->parse (source); } else { root = builder->parseURI (pwszOriginalFilename); } } catch (...) { rc = VERR_OPEN_FAILED; } if (errorHandler.hasErrors()) { // this will transfer ownership of the string if (ppszErrorMessage) *ppszErrorMessage = errorHandler.takeErrorMessage(); rc = VERR_OPEN_FAILED; } builder->setErrorHandler (NULL); builder->setEntityResolver (NULL); return rc; } int CfgLoader::Save (const char *pszFilename, RTFILE hFileHandle, char **ppszErrorMessage) { if (!pszFilename && !pwszOriginalFilename && hFileHandle == NIL_RTFILE && hOriginalFileHandle == NIL_RTFILE) { // no explicit handle/filename specified and the configuration // was created from scratch return VERR_INVALID_PARAMETER; } static const XMLCh LS[] = { chLatin_L, chLatin_S, chNull }; DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation (LS); if (!impl) return VERR_NOT_SUPPORTED; DOMWriter *writer = static_cast (impl)->createDOMWriter(); if (!writer) return VERR_NOT_SUPPORTED; int rc = VINF_SUCCESS; if (ppszErrorMessage) *ppszErrorMessage = NULL; #ifdef VBOX_XML_WRITER_FILTER VBoxWriterFilter theFilter (DOMNodeFilter::SHOW_TEXT); writer->setFilter (&theFilter); #endif writer->setEncoding (XMLUni::fgUTF8EncodingString); // set feature if the serializer supports the feature/mode if (writer->canSetFeature(XMLUni::fgDOMWRTDiscardDefaultContent, true)) writer->setFeature(XMLUni::fgDOMWRTDiscardDefaultContent, true); if (writer->canSetFeature (XMLUni::fgDOMWRTFormatPrettyPrint, true)) writer->setFeature (XMLUni::fgDOMWRTFormatPrettyPrint, true); CfgLdrErrorHandler errorHandler; writer->setErrorHandler (&errorHandler); try { if (hFileHandle != NIL_RTFILE || hOriginalFileHandle != NIL_RTFILE) { CFGLDRENTITY entity; entity.enmType = CFGLDRENTITYTYPE_HANDLE; entity.u.handle.hFile = hFileHandle != NIL_RTFILE ? hFileHandle : hOriginalFileHandle; entity.u.handle.bClose = false; CfgLdrFormatTarget target (&entity); writer->writeNode (&target, *root); } else { PRTUTF16 pwszFilename = NULL; if (pszFilename) rc = RTStrToUtf16 (pszFilename, &pwszFilename); if (VBOX_SUCCESS (rc)) { LocalFileFormatTarget target (pwszFilename ? pwszFilename : pwszOriginalFilename); if (pwszFilename) RTUtf16Free (pwszFilename); writer->writeNode (&target, *root); } } } catch(...) { rc = VERR_FILE_IO_ERROR; } if (errorHandler.hasErrors()) { // this will transfer ownership of the string if (ppszErrorMessage) *ppszErrorMessage = errorHandler.takeErrorMessage(); rc = VERR_FILE_IO_ERROR; } writer->release(); if (hFileHandle != NIL_RTFILE || hOriginalFileHandle != NIL_RTFILE) (void)RTFileFlush(hFileHandle != NIL_RTFILE ? hFileHandle : hOriginalFileHandle); return rc; } #ifdef VBOX_XML_XSLT int CfgLoader::Transform (const char *pszTemlateLocation, PFNCFGLDRENTITYRESOLVER pfnEntityResolver, char **ppszErrorMessage) { AssertReturn (strcmp (pszTemlateLocation, "SettingsConverter.xsl") == 0, VERR_NOT_SUPPORTED); AssertReturn (pfnEntityResolver == NULL, VERR_NOT_SUPPORTED); int rc = VINF_SUCCESS; if (ppszErrorMessage) *ppszErrorMessage = NULL; XalanTransformer::initialize(); XalanTransformer xalan; // input stream to read from SettingsConverter_xsl struct SettingsConverterStream : public XSLTInputSource { SettingsConverterStream() { XMLCh *id = XMLString::transcode ("SettingsConverter.xsl"); setSystemId (id); setPublicId (id); XMLString::release (&id); } BinInputStream *makeStream () const { return new BinMemInputStream (g_abSettingsConverter_xsl, g_cbSettingsConverter_xsl); } }; CfgLdrErrorHandler errorHandler; xalan.setProblemListener (&errorHandler); try { // target is the DOM tree DOMDocument *newRoot = DOMImplementation::getImplementation()->createDocument(); FormatterToXercesDOM formatter (newRoot, 0); // source is the DOM tree XercesDOMSupport support; XercesParserLiaison liaison; const XercesDOMWrapperParsedSource parsedSource ( Document(), liaison, support, XalanDOMString (pwszOriginalFilename)); // stylesheet SettingsConverterStream xsl; int xrc = xalan.transform (parsedSource, xsl, formatter); if (xrc) { LogFlow(("xalan.transform() = %d (%s)\n", xrc, xalan.getLastError())); newRoot->release(); rc = VERR_FILE_IO_ERROR; } else { // release the builder and the old document, if any if (builder) { builder->release(); builder = 0; root = 0; } else if (root) { root->release(); root = 0; } root = newRoot; // Xalan 1.9.0 (and 1.10.0) is stupid bacause disregards the // XSLT specs and ignores the exclude-result-prefixes stylesheet // attribute, flooding all the elements with stupid xmlns // specifications. Here we remove them. XMLCh *xmlnsName = XMLString::transcode ("xmlns"); XMLCh *xmlnsVBox = XMLString::transcode ("http://www.innotek.de/VirtualBox-settings"); DOMNodeIterator *iter = newRoot->createNodeIterator (newRoot, DOMNodeFilter::SHOW_ELEMENT, NULL, false); DOMNode *node = NULL; while ((node = iter->nextNode()) != NULL) { DOMElement *elem = static_cast (node); if (elem->getParentNode() == newRoot) continue; const XMLCh *xmlns = elem->getAttribute (xmlnsName); if (xmlns == NULL) continue; if (xmlns[0] == 0 || XMLString::compareString (xmlns, xmlnsVBox) == 0) { elem->removeAttribute (xmlnsName); } } XMLString::release (&xmlnsVBox); XMLString::release (&xmlnsName); } } catch (...) { rc = VERR_FILE_IO_ERROR; } if (VBOX_FAILURE (rc)) { // this will transfer ownership of the string if (ppszErrorMessage) { if (xalan.getLastError()) *ppszErrorMessage = RTStrDup (xalan.getLastError()); else *ppszErrorMessage = errorHandler.takeErrorMessage(); } } XalanTransformer::terminate(); return rc; } #endif int CfgLoader::Create() { if (!xmlInitialized) { return VERR_NOT_SUPPORTED; } int rc = VINF_SUCCESS; static const XMLCh gLS[] = { chLatin_L, chLatin_S, chNull }; DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(gLS); if (impl) { // creating an empty doc is a non-standard extension to DOM specs. // we're using it since we're bound to Xerces anyway. root = impl->createDocument(); } if (!root) { rc = VERR_NOT_SUPPORTED; } return rc; } int CfgLoader::FreeConfiguration (CfgLoader *pcfg) { int rc = VINF_SUCCESS; while (pcfg->pfirstnode) { CfgNode::ReleaseNode (pcfg->pfirstnode); } delete pcfg; return rc; } int CfgLoader::CreateNode (const char *pszName, CfgNode **ppnode) { return getNode (root, pszName, 0, ppnode, CfgNode::fCreateIfNotExists); } int CfgLoader::GetNode (const char *pszName, unsigned uIndex, CfgNode **ppnode) { return getNode (root, pszName, uIndex, ppnode, CfgNode::fSearch); } int CfgLoader::getNode (DOMNode *prootnode, const char *pszName, unsigned uIndex, CfgNode **ppnode, unsigned flags) { int rc = VINF_SUCCESS; CfgNode *pnode = new CfgNode (this); if (!pnode) { rc = VERR_NO_MEMORY; } else if (!prootnode) { rc = VERR_NOT_SUPPORTED; } else { rc = pnode->resolve (prootnode, pszName, uIndex, flags); } if (VBOX_SUCCESS(rc)) { pnode->next = pfirstnode; if (pfirstnode) { pfirstnode->prev = pnode; } pfirstnode = pnode; *ppnode = pnode; } else { if (pnode) { delete pnode; } } return rc; } /* CfgNode implementation */ CfgNode::CfgNode (CfgLoader *pcfg) : pConfiguration (pcfg), next (NULL), prev (NULL) { } CfgNode::~CfgNode () { } int CfgNode::ReleaseNode (CfgNode *pnode) { int rc = VINF_SUCCESS; if (pnode->next) { pnode->next->prev = pnode->prev; } if (pnode->prev) { pnode->prev->next = pnode->next; } else { pnode->pConfiguration->pfirstnode = pnode->next; } delete pnode; return rc; } int CfgNode::DeleteNode (CfgNode *pnode) { int rc = VINF_SUCCESS; DOMNode *pparent = pnode->pdomnode->getParentNode (); pparent->removeChild (pnode->pdomnode); pnode->pdomnode = 0; ReleaseNode (pnode); return rc; } int CfgNode::resolve (DOMNode *root, const char *pszName, unsigned uIndex, unsigned flags) { static const char *pcszEmptyName = ""; if (!root) { return VERR_PATH_NOT_FOUND; } if (!pszName) { // special case for resolving any child pszName = pcszEmptyName; } if ((flags & (fCreateIfNotExists | fAppend)) && !(*pszName)) { return VERR_INVALID_PARAMETER; } int rc = VINF_SUCCESS; PRTUTF16 pwszName = NULL; rc = RTStrToUtf16 (pszName, &pwszName); if (VBOX_SUCCESS(rc)) { XMLCh *puszComponent = pwszName; bool lastComponent = false; int lastindex = XMLString::indexOf (puszComponent, '/'); if (lastindex == -1) { lastindex = XMLString::stringLen (puszComponent); lastComponent = true; } rc = VERR_PATH_NOT_FOUND; for (;;) { DOMNode *child = 0, *first = 0; if (!lastComponent || !(flags & fAppend)) { for (child = root->getFirstChild(); child != 0; child=child->getNextSibling()) { if (child->getNodeType () == DOMNode::ELEMENT_NODE) { if (!lastindex || XMLString::compareNString (child->getNodeName (), puszComponent, lastindex) == 0) { if (lastComponent) { if (uIndex == 0) { pdomnode = child; rc = VINF_SUCCESS; break; } uIndex--; continue; } else { if (!first) { first = child; } else { break; } } } } } } if (first) { if (child) { // some element in the path (except the last) has // siblingswith the same name rc = VERR_INVALID_PARAMETER; break; } root = child = first; } if (!child) { if (flags & (fCreateIfNotExists | fAppend)) { // Extract the component name to a temporary buffer RTUTF16 uszName[256]; memcpy (uszName, puszComponent, lastindex * sizeof(uszName[0])); uszName[lastindex] = 0; try { DOMElement *elem = pConfiguration->Document()->createElement(uszName); root = root->appendChild(elem); } catch (...) { Log(( "Error creating element [%ls]\n", uszName )); rc = VERR_CFG_NO_VALUE; break; } if (lastComponent) { pdomnode = root; rc = VINF_SUCCESS; break; } } else { break; } } puszComponent += lastindex; if (*puszComponent) { puszComponent++; } if (!*puszComponent) { break; } lastindex = XMLString::indexOf (puszComponent, '/'); if (lastindex == -1) { lastindex = XMLString::stringLen (puszComponent); lastComponent = true; } } RTUtf16Free (pwszName); } return rc; } int CfgNode::GetChild (const char *pszName, unsigned uIndex, CfgNode **ppnode) { return pConfiguration->getNode (pdomnode, pszName, uIndex, ppnode, fSearch); } int CfgNode::CreateChildNode (const char *pszName, CfgNode **ppnode) { return pConfiguration->getNode (pdomnode, pszName, 0, ppnode, fCreateIfNotExists); } int CfgNode::AppendChildNode (const char *pszName, CfgNode **ppnode) { return pConfiguration->getNode (pdomnode, pszName, 0, ppnode, fAppend); } int CfgNode::CountChildren (const char *pszChildName, unsigned *pCount) { int rc = VINF_SUCCESS; PRTUTF16 pwszChildName = NULL; if (pszChildName) { rc = RTStrToUtf16 (pszChildName, &pwszChildName); } if (VBOX_SUCCESS(rc)) { DOMNode *child; unsigned count = 0; for (child = pdomnode->getFirstChild(); child != 0; child=child->getNextSibling()) { if (child->getNodeType () == DOMNode::ELEMENT_NODE) { if (pwszChildName == NULL) { count++; } else if (XMLString::compareString (child->getNodeName (), pwszChildName) == 0) { count++; } } } if (pwszChildName) { RTUtf16Free (pwszChildName); } *pCount = count; } return rc; } DOMNode *CfgNode::findChildText (void) { DOMNode *child = NULL; for (child = pdomnode->getFirstChild(); child != 0; child=child->getNextSibling()) { if (child->getNodeType () == DOMNode::TEXT_NODE) { break; } } return child; } /** * Gets the value of the given attribute as a UTF-16 string. * The returned string is owned by CfgNode, the caller must not free it. * * @param pszName Attribute name. * @param ppwszValue Where to store a pointer to the attribute value. * * @return IPRT status code. */ int CfgNode::getValueString (const char *pszName, PRTUTF16 *ppwszValue) { int rc = VINF_SUCCESS; PCRTUTF16 pwszValue = NULL; if (!pszName) { DOMNode *ptext = findChildText (); if (ptext) { pwszValue = ptext->getNodeValue (); } } else { PRTUTF16 pwszName = NULL; rc = RTStrToUtf16 (pszName, &pwszName); if (VBOX_SUCCESS(rc)) { DOMAttr *attr = (static_cast(pdomnode))->getAttributeNode (pwszName); if (attr) { pwszValue = attr->getValue (); } RTUtf16Free (pwszName); } } if (!pwszValue) { *ppwszValue = NULL; rc = VERR_CFG_NO_VALUE; } else { *ppwszValue = (PRTUTF16)pwszValue; } return rc; } int CfgNode::setValueString (const char *pszName, PRTUTF16 pwszValue) { int rc = VINF_SUCCESS; if (!pszName) { DOMText *val = NULL; try { val = pConfiguration->Document ()->createTextNode(pwszValue); } catch (...) { rc = VERR_CFG_NO_VALUE; } if (VBOX_SUCCESS(rc) && val) { try { DOMNode *poldtext = findChildText (); if (poldtext) { pdomnode->replaceChild (val, poldtext); poldtext->release(); } else { pdomnode->appendChild (val); } } catch (...) { rc = VERR_CFG_NO_VALUE; val->release(); } } } else { PRTUTF16 pwszName = NULL; rc = RTStrToUtf16 (pszName, &pwszName); if (VBOX_SUCCESS(rc)) { try { static_cast(pdomnode)->setAttribute (pwszName, pwszValue); } catch (...) { rc = VERR_CFG_NO_VALUE; } } } return rc; } int CfgNode::QueryUInt32 (const char *pszName, uint32_t *pulValue) { int rc = VINF_SUCCESS; PRTUTF16 pwszValue = NULL; rc = getValueString (pszName, &pwszValue); if (VBOX_SUCCESS(rc)) { uint32_t value = 0; char *pszValue = NULL; rc = RTUtf16ToUtf8 (pwszValue, &pszValue); if (VBOX_SUCCESS (rc)) { rc = RTStrToUInt32Ex (pszValue, NULL, 0, &value); if (VBOX_SUCCESS(rc)) { *pulValue = value; } RTStrFree (pszValue); } } return rc; } int CfgNode::SetUInt32 (const char *pszName, uint32_t ulValue, unsigned int uiBase) { int rc = VINF_SUCCESS; char szValue [64]; rc = RTStrFormatNumber (szValue, (uint64_t) ulValue, uiBase, 0, 0, RTSTR_F_32BIT | RTSTR_F_SPECIAL); if (VBOX_SUCCESS (rc)) { PRTUTF16 pwszValue = NULL; rc = RTStrToUtf16 (szValue, &pwszValue); if (VBOX_SUCCESS (rc)) { rc = setValueString (pszName, pwszValue); RTUtf16Free (pwszValue); } } return rc; } int CfgNode::QueryUInt64 (const char *pszName, uint64_t *pullValue) { int rc = VINF_SUCCESS; PRTUTF16 pwszValue = NULL; rc = getValueString (pszName, &pwszValue); if (VBOX_SUCCESS(rc)) { uint64_t value = 0; char *pszValue = NULL; rc = RTUtf16ToUtf8 (pwszValue, &pszValue); if (VBOX_SUCCESS (rc)) { rc = RTStrToUInt64Ex (pszValue, NULL, 0, &value); if (VBOX_SUCCESS(rc)) { *pullValue = value; } RTStrFree (pszValue); } } return rc; } int CfgNode::SetUInt64 (const char *pszName, uint64_t ullValue, unsigned int uiBase) { int rc = VINF_SUCCESS; char szValue [64]; rc = RTStrFormatNumber (szValue, ullValue, uiBase, 0, 0, RTSTR_F_64BIT | RTSTR_F_SPECIAL); if (VBOX_SUCCESS (rc)) { PRTUTF16 pwszValue = NULL; rc = RTStrToUtf16 (szValue, &pwszValue); if (VBOX_SUCCESS (rc)) { rc = setValueString (pszName, pwszValue); RTUtf16Free (pwszValue); } } return rc; } int CfgNode::QueryInt32 (const char *pszName, int32_t *plValue) { int rc = VINF_SUCCESS; PRTUTF16 pwszValue = NULL; rc = getValueString (pszName, &pwszValue); if (VBOX_SUCCESS(rc)) { int32_t value = 0; char *pszValue = NULL; rc = RTUtf16ToUtf8 (pwszValue, &pszValue); if (VBOX_SUCCESS (rc)) { rc = RTStrToInt32Ex (pszValue, NULL, 0, &value); if (VBOX_SUCCESS(rc)) { *plValue = value; } RTStrFree (pszValue); } } return rc; } int CfgNode::SetInt32 (const char *pszName, int32_t lValue, unsigned int uiBase) { int rc = VINF_SUCCESS; char szValue [64]; rc = RTStrFormatNumber (szValue, (uint64_t) lValue, uiBase, 0, 0, RTSTR_F_32BIT | RTSTR_F_VALSIGNED | RTSTR_F_SPECIAL); if (VBOX_SUCCESS (rc)) { PRTUTF16 pwszValue = NULL; rc = RTStrToUtf16 (szValue, &pwszValue); if (VBOX_SUCCESS (rc)) { rc = setValueString (pszName, pwszValue); RTUtf16Free (pwszValue); } } return rc; } int CfgNode::QueryInt64 (const char *pszName, int64_t *pllValue) { int rc = VINF_SUCCESS; PRTUTF16 pwszValue = NULL; rc = getValueString (pszName, &pwszValue); if (VBOX_SUCCESS(rc)) { int64_t value = 0; char *pszValue = NULL; rc = RTUtf16ToUtf8 (pwszValue, &pszValue); if (VBOX_SUCCESS (rc)) { rc = RTStrToInt64Ex (pszValue, NULL, 0, &value); if (VBOX_SUCCESS(rc)) { *pllValue = value; } RTStrFree (pszValue); } } return rc; } int CfgNode::SetInt64 (const char *pszName, int64_t llValue, unsigned int uiBase) { int rc = VINF_SUCCESS; char szValue [64]; rc = RTStrFormatNumber (szValue, (uint64_t) llValue, uiBase, 0, 0, RTSTR_F_64BIT | RTSTR_F_VALSIGNED | RTSTR_F_SPECIAL); if (VBOX_SUCCESS (rc)) { PRTUTF16 pwszValue = NULL; rc = RTStrToUtf16 (szValue, &pwszValue); if (VBOX_SUCCESS (rc)) { rc = setValueString (pszName, pwszValue); RTUtf16Free (pwszValue); } } return rc; } int CfgNode::QueryUInt16 (const char *pszName, uint16_t *puhValue) { int rc = VINF_SUCCESS; PRTUTF16 pwszValue = NULL; rc = getValueString (pszName, &pwszValue); if (VBOX_SUCCESS(rc)) { uint16_t value = 0; char *pszValue = NULL; rc = RTUtf16ToUtf8 (pwszValue, &pszValue); if (VBOX_SUCCESS (rc)) { rc = RTStrToUInt16Ex (pszValue, NULL, 0, &value); if (VBOX_SUCCESS(rc)) { *puhValue = value; } RTStrFree (pszValue); } } return rc; } int CfgNode::SetUInt16 (const char *pszName, uint16_t uhValue, unsigned int uiBase) { int rc = VINF_SUCCESS; char szValue [64]; rc = RTStrFormatNumber (szValue, (uint64_t) uhValue, uiBase, 0, 0, RTSTR_F_16BIT | RTSTR_F_SPECIAL); if (VBOX_SUCCESS (rc)) { PRTUTF16 pwszValue = NULL; rc = RTStrToUtf16 (szValue, &pwszValue); if (VBOX_SUCCESS (rc)) { rc = setValueString (pszName, pwszValue); RTUtf16Free (pwszValue); } } return rc; } int CfgNode::QueryBin (const char *pszName, void *pvValue, unsigned cbValue, unsigned *pcbValue) { int rc = VINF_SUCCESS; PRTUTF16 pwszValue = NULL; rc = getValueString (pszName, &pwszValue); if (VBOX_SUCCESS(rc)) { if ( (XMLString::stringLen (pwszValue) / 2) > cbValue) { rc = VERR_BUFFER_OVERFLOW; } else if (!pvValue) { rc = VERR_INVALID_POINTER; } else { rc = wstr_to_bin (pwszValue, pvValue, cbValue, pcbValue); } } return rc; } int CfgNode::SetBin (const char *pszName, const void *pvValue, unsigned cbValue) { int rc = VINF_SUCCESS; PRTUTF16 pwszValue = NULL; rc = bin_to_wstr (pvValue, cbValue, &pwszValue); if (VBOX_SUCCESS (rc)) { rc = setValueString (pszName, pwszValue); RTUtf16Free (pwszValue); } return rc; } int CfgNode::QueryString (const char *pszName, void **pValue, unsigned cbValue, unsigned *pcbValue, bool returnUtf16) { int rc = VINF_SUCCESS; PRTUTF16 pwszValue = NULL; // start with 0 bytes return value if (pcbValue) *pcbValue = 0; rc = getValueString (pszName, &pwszValue); if (VBOX_SUCCESS(rc)) { if (returnUtf16) { // make a copy *pValue = (void*)SysAllocString((const OLECHAR*)pwszValue); } else { char *psz = NULL; rc = RTUtf16ToUtf8 (pwszValue, &psz); if (VBOX_SUCCESS(rc)) { unsigned l = strlen (psz) + 1; // take trailing nul to account *pcbValue = l; if (l > cbValue) { rc = VERR_BUFFER_OVERFLOW; } else if (!*pValue) { rc = VERR_INVALID_POINTER; } else { memcpy (*pValue, psz, l); } RTStrFree (psz); } } } return rc; } int CfgNode::SetString (const char *pszName, const char *pszValue, unsigned cbValue, bool isUtf16) { int rc = VINF_SUCCESS; PRTUTF16 pwszValue = NULL; if (isUtf16) pwszValue = (PRTUTF16)pszValue; else rc = RTStrToUtf16 (pszValue, &pwszValue); if (VBOX_SUCCESS (rc)) { rc = setValueString (pszName, pwszValue); if (!isUtf16) RTUtf16Free (pwszValue); } return rc; } int CfgNode::QueryBool (const char *pszName, bool *pfValue) { int rc = VINF_SUCCESS; PRTUTF16 pwszValue = NULL; rc = getValueString (pszName, &pwszValue); if (VBOX_SUCCESS (rc)) { char *pszValue = NULL; rc = RTUtf16ToUtf8 (pwszValue, &pszValue); if (VBOX_SUCCESS (rc)) { if ( !stricmp (pszValue, "true") || !stricmp (pszValue, "yes") || !stricmp (pszValue, "on")) *pfValue = true; else if ( !stricmp (pszValue, "false") || !stricmp (pszValue, "no") || !stricmp (pszValue, "off")) *pfValue = false; else rc = VERR_CFG_INVALID_FORMAT; RTStrFree (pszValue); } } return rc; } int CfgNode::SetBool (const char *pszName, bool fValue) { return SetString (pszName, fValue ? "true" : "false", fValue ? 4 : 5, false); } int CfgNode::DeleteAttribute (const char *pszName) { int rc = VINF_SUCCESS; PRTUTF16 pwszName = NULL; rc = RTStrToUtf16 (pszName, &pwszName); if (VBOX_SUCCESS (rc)) { try { (static_cast(pdomnode))->removeAttribute (pwszName); } catch (...) { rc = VERR_CFG_NO_VALUE; } RTUtf16Free (pwszName); } return rc; } /* Configuration loader public entry points. */ CFGLDRR3DECL(int) CFGLDRCreate(CFGHANDLE *phcfg) { if (!phcfg) { return VERR_INVALID_POINTER; } CfgLoader *pcfgldr = new CfgLoader (); if (!pcfgldr) { return VERR_NO_MEMORY; } int rc = pcfgldr->Create(); if (VBOX_SUCCESS(rc)) { *phcfg = pcfgldr; } else { delete pcfgldr; } return rc; } CFGLDRR3DECL(int) CFGLDRLoad (CFGHANDLE *phcfg, const char *pszFileName, RTFILE hFileHandle, const char *pszExternalSchemaLocation, bool bDoNamespaces, PFNCFGLDRENTITYRESOLVER pfnEntityResolver, char **ppszErrorMessage) { if (!phcfg || !pszFileName) return VERR_INVALID_POINTER; CfgLoader *pcfgldr = new CfgLoader(); if (!pcfgldr) return VERR_NO_MEMORY; int rc = pcfgldr->Load (pszFileName, hFileHandle, pszExternalSchemaLocation, bDoNamespaces, pfnEntityResolver, ppszErrorMessage); if (VBOX_SUCCESS(rc)) *phcfg = pcfgldr; else delete pcfgldr; return rc; } CFGLDRR3DECL(int) CFGLDRFree(CFGHANDLE hcfg) { if (!hcfg) { return VERR_INVALID_HANDLE; } CfgLoader::FreeConfiguration (hcfg); return VINF_SUCCESS; } CFGLDRR3DECL(int) CFGLDRSave(CFGHANDLE hcfg, char **ppszErrorMessage) { if (!hcfg) { return VERR_INVALID_HANDLE; } return hcfg->Save (NULL, NIL_RTFILE, ppszErrorMessage); } CFGLDRR3DECL(int) CFGLDRSaveAs(CFGHANDLE hcfg, const char *pszFilename, RTFILE hFileHandle, char **ppszErrorMessage) { if (!hcfg) { return VERR_INVALID_HANDLE; } if (!pszFilename) { return VERR_INVALID_POINTER; } return hcfg->Save (pszFilename, hFileHandle, ppszErrorMessage); } CFGLDRR3DECL(int) CFGLDRTransform (CFGHANDLE hcfg, const char *pszTemlateLocation, PFNCFGLDRENTITYRESOLVER pfnEntityResolver, char **ppszErrorMessage) { #ifdef VBOX_XML_XSLT if (!hcfg) { return VERR_INVALID_HANDLE; } if (!pszTemlateLocation) { return VERR_INVALID_POINTER; } return hcfg->Transform (pszTemlateLocation, pfnEntityResolver, ppszErrorMessage); #else return VERR_NOT_SUPPORTED; #endif } CFGLDRR3DECL(int) CFGLDRGetNode(CFGHANDLE hcfg, const char *pszName, unsigned uIndex, CFGNODE *phnode) { if (!hcfg) { return VERR_INVALID_HANDLE; } if (!phnode) { return VERR_INVALID_POINTER; } return hcfg->GetNode (pszName, uIndex, phnode); } CFGLDRR3DECL(int) CFGLDRGetChildNode(CFGNODE hparent, const char *pszName, unsigned uIndex, CFGNODE *phnode) { if (!hparent) { return VERR_INVALID_HANDLE; } if (!phnode) { return VERR_INVALID_POINTER; } return hparent->GetChild (pszName, uIndex, phnode); } CFGLDRR3DECL(int) CFGLDRCreateNode(CFGHANDLE hcfg, const char *pszName, CFGNODE *phnode) { if (!hcfg) { return VERR_INVALID_HANDLE; } if (!phnode || !pszName) { return VERR_INVALID_POINTER; } return hcfg->CreateNode (pszName, phnode); } CFGLDRR3DECL(int) CFGLDRCreateChildNode(CFGNODE hparent, const char *pszName, CFGNODE *phnode) { if (!hparent) { return VERR_INVALID_HANDLE; } if (!phnode || !pszName) { return VERR_INVALID_POINTER; } return hparent->CreateChildNode (pszName, phnode); } CFGLDRR3DECL(int) CFGLDRAppendChildNode(CFGNODE hparent, const char *pszName, CFGNODE *phnode) { if (!hparent) { return VERR_INVALID_HANDLE; } if (!phnode || !pszName) { return VERR_INVALID_POINTER; } return hparent->AppendChildNode (pszName, phnode); } CFGLDRR3DECL(int) CFGLDRReleaseNode(CFGNODE hnode) { if (!hnode) { return VERR_INVALID_HANDLE; } return CfgNode::ReleaseNode (hnode); } CFGLDRR3DECL(int) CFGLDRDeleteNode(CFGNODE hnode) { if (!hnode) { return VERR_INVALID_HANDLE; } return CfgNode::DeleteNode (hnode); } CFGLDRR3DECL(int) CFGLDRCountChildren(CFGNODE hnode, const char *pszChildName, unsigned *pCount) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!pCount) { return VERR_INVALID_POINTER; } return hnode->CountChildren (pszChildName, pCount); } CFGLDRR3DECL(int) CFGLDRQueryUInt32(CFGNODE hnode, const char *pszName, uint32_t *pulValue) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!pulValue) { return VERR_INVALID_POINTER; } return hnode->QueryUInt32 (pszName, pulValue); } CFGLDRR3DECL(int) CFGLDRSetUInt32(CFGNODE hnode, const char *pszName, uint32_t ulValue) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->SetUInt32 (pszName, ulValue); } CFGLDRR3DECL(int) CFGLDRSetUInt32Ex(CFGNODE hnode, const char *pszName, uint32_t ulValue, unsigned int uiBase) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->SetUInt32 (pszName, ulValue, uiBase); } CFGLDRR3DECL(int) CFGLDRQueryUInt64(CFGNODE hnode, const char *pszName, uint64_t *pullValue) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!pullValue) { return VERR_INVALID_POINTER; } return hnode->QueryUInt64 (pszName, pullValue); } CFGLDRR3DECL(int) CFGLDRSetUInt64(CFGNODE hnode, const char *pszName, uint64_t ullValue) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->SetUInt64 (pszName, ullValue); } CFGLDRR3DECL(int) CFGLDRSetUInt64Ex(CFGNODE hnode, const char *pszName, uint64_t ullValue, unsigned int uiBase) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->SetUInt64 (pszName, ullValue, uiBase); } CFGLDRR3DECL(int) CFGLDRQueryInt32(CFGNODE hnode, const char *pszName, int32_t *plValue) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->QueryInt32 (pszName, plValue); } CFGLDRR3DECL(int) CFGLDRSetInt32(CFGNODE hnode, const char *pszName, int32_t lValue) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->SetInt32 (pszName, lValue); } CFGLDRR3DECL(int) CFGLDRSetInt32Ex(CFGNODE hnode, const char *pszName, int32_t lValue, unsigned int uiBase) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->SetInt32 (pszName, lValue, uiBase); } CFGLDRR3DECL(int) CFGLDRQueryInt64(CFGNODE hnode, const char *pszName, int64_t *pllValue) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->QueryInt64 (pszName, pllValue); } CFGLDRR3DECL(int) CFGLDRSetInt64(CFGNODE hnode, const char *pszName, int64_t llValue) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->SetInt64 (pszName, llValue); } CFGLDRR3DECL(int) CFGLDRSetInt64Ex(CFGNODE hnode, const char *pszName, int64_t llValue, unsigned int uiBase) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->SetInt64 (pszName, llValue, uiBase); } CFGLDRR3DECL(int) CFGLDRQueryUInt16(CFGNODE hnode, const char *pszName, uint16_t *puhValue) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!puhValue) { return VERR_INVALID_POINTER; } return hnode->QueryUInt16 (pszName, puhValue); } CFGLDRR3DECL(int) CFGLDRSetUInt16(CFGNODE hnode, const char *pszName, uint16_t uhValue) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->SetUInt16 (pszName, uhValue); } CFGLDRR3DECL(int) CFGLDRSetUInt16Ex(CFGNODE hnode, const char *pszName, uint16_t uhValue, unsigned int uiBase) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->SetUInt16 (pszName, uhValue, uiBase); } CFGLDRR3DECL(int) CFGLDRQueryBin(CFGNODE hnode, const char *pszName, void *pvValue, unsigned cbValue, unsigned *pcbValue) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!pcbValue) { return VERR_INVALID_POINTER; } return hnode->QueryBin (pszName, pvValue, cbValue, pcbValue); } CFGLDRR3DECL(int) CFGLDRSetBin(CFGNODE hnode, const char *pszName, void *pvValue, unsigned cbValue) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!pvValue) { return VERR_INVALID_POINTER; } return hnode->SetBin (pszName, pvValue, cbValue); } CFGLDRR3DECL(int) CFGLDRQueryString(CFGNODE hnode, const char *pszName, char *pszValue, unsigned cbValue, unsigned *pcbValue) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!pcbValue) { return VERR_INVALID_POINTER; } return hnode->QueryString (pszName, (void**)&pszValue, cbValue, pcbValue, false); } CFGLDRR3DECL(int) CFGLDRQueryBSTR(CFGNODE hnode, const char *pszName, BSTR *ppwszValue) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!ppwszValue) { return VERR_INVALID_POINTER; } return hnode->QueryString(pszName, (void**)ppwszValue, 0, NULL, true); } CFGLDRR3DECL(int) CFGLDRQueryUUID(CFGNODE hnode, const char *pszName, PRTUUID pUUID) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!pUUID) { return VERR_INVALID_POINTER; } // we need it as UTF8 unsigned size; int rc; rc = CFGLDRQueryString(hnode, pszName, NULL, 0, &size); if (rc == VERR_BUFFER_OVERFLOW) { char *uuidUtf8 = new char[size]; rc = CFGLDRQueryString(hnode, pszName, uuidUtf8, size, &size); if (VBOX_SUCCESS(rc)) { // remove the curly brackets uuidUtf8[strlen(uuidUtf8) - 1] = '\0'; rc = RTUuidFromStr(pUUID, &uuidUtf8[1]); } delete[] uuidUtf8; } return rc; } CFGLDRR3DECL(int) CFGLDRSetUUID(CFGNODE hnode, const char *pszName, PCRTUUID pUuid) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!pUuid) { return VERR_INVALID_HANDLE; } // UUID + curly brackets char strUuid[RTUUID_STR_LENGTH + 2 * sizeof(char)]; strUuid[0] = '{'; RTUuidToStr((const PRTUUID)pUuid, &strUuid[1], RTUUID_STR_LENGTH); strcat(strUuid, "}"); return hnode->SetString (pszName, strUuid, strlen (strUuid), false); } CFGLDRR3DECL(int) CFGLDRSetString(CFGNODE hnode, const char *pszName, const char *pszValue) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!pszValue) { return VERR_INVALID_POINTER; } return hnode->SetString (pszName, pszValue, strlen (pszValue), false); } CFGLDRR3DECL(int) CFGLDRSetBSTR(CFGNODE hnode, const char *pszName, const BSTR bstrValue) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!bstrValue) { return VERR_INVALID_POINTER; } return hnode->SetString (pszName, (char*)bstrValue, RTUtf16Len((PCRTUTF16)bstrValue), true); } CFGLDRR3DECL(int) CFGLDRQueryBool(CFGNODE hnode, const char *pszName, bool *pfValue) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!pfValue) { return VERR_INVALID_POINTER; } return hnode->QueryBool (pszName, pfValue); } CFGLDRR3DECL(int) CFGLDRSetBool(CFGNODE hnode, const char *pszName, bool fValue) { if (!hnode) { return VERR_INVALID_HANDLE; } return hnode->SetBool (pszName, fValue); } CFGLDRR3DECL(int) CFGLDRQueryDateTime(CFGNODE hnode, const char *pszName, int64_t *pi64Value) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!pi64Value) { return VERR_INVALID_POINTER; } // query as UTF8 string unsigned size = 0; int rc = CFGLDRQueryString(hnode, pszName, NULL, 0, &size); if (rc != VERR_BUFFER_OVERFLOW) return rc; char *pszValue = new char[size]; char *pszBuf = new char[size]; rc = CFGLDRQueryString(hnode, pszName, pszValue, size, &size); if (VBOX_SUCCESS(rc)) do { // Parse xsd:dateTime. The format is: // '-'? yyyy '-' mm '-' dd 'T' hh ':' mm ':' ss ('.' s+)? (zzzzzz)? // where zzzzzz is: (('+' | '-') hh ':' mm) | 'Z' uint32_t yyyy = 0; uint16_t mm = 0, dd = 0, hh = 0, mi = 0, ss = 0; if (sscanf(pszValue, "%d-%hu-%huT%hu:%hu:%hu%s", &yyyy, &mm, &dd, &hh, &mi, &ss, pszBuf) != 7) { rc = VERR_PARSE_ERROR; break; } // currently, we accept only the UTC timezone ('Z'), // ignoring fractional seconds, if present if (pszBuf[0] == 'Z' || (pszBuf[0] == '.' && pszBuf[strlen(pszBuf)-1] == 'Z')) { // start with an error rc = VERR_PARSE_ERROR; #if 0 RTTIME time = { yyyy, mm, 0, 0, dd, hh, mm, ss, 0, RTTIME_FLAGS_TYPE_UTC }; if (RTTimeNormalize(&time)) { RTTIMESPEC timeSpec; if (RTTimeImplode(&time, &timeSpec)) { *pi64Value = RTTimeSpecGetMilli(&timeSpec); rc = VINF_SUCCESS; } } #else /// @todo (dmik) until RTTimeImplode and friends are done int isdst = 0; { time_t dummyt = time(NULL); isdst = localtime(&dummyt)->tm_isdst; } tm time; time.tm_hour = hh; /* hour (0 - 23) */ time.tm_isdst = isdst; /* daylight saving time enabled/disabled */ time.tm_mday = dd; /* day of month (1 - 31) */ time.tm_min = mi; /* minutes (0 - 59) */ time.tm_mon = mm - 1; /* month (0 - 11 : 0 = January) */ time.tm_sec = ss; /* seconds (0 - 59) */ time.tm_wday = 0; /* Day of week (0 - 6 : 0 = Sunday) */ time.tm_yday = 0; /* Day of year (0 - 365) */ time.tm_year = yyyy - 1900; /* Year less 1900 */ time_t t = mktime(&time); // mktime expects local time, but we supply it UTC, // do a trick to get the right time value tm *dummytm = gmtime(&t); dummytm->tm_isdst = isdst; time_t delta = t - mktime(dummytm); *pi64Value = t + delta; *pi64Value *= 1000; rc = VINF_SUCCESS; #endif } else rc = VERR_PARSE_ERROR; } while (0); delete[] pszBuf; delete[] pszValue; return rc; } CFGLDRR3DECL(int) CFGLDRSetDateTime(CFGNODE hnode, const char *pszName, int64_t i64Value) { if (!hnode) { return VERR_INVALID_HANDLE; } #if 0 RTTIMESPEC timeSpec; RTTimeSpecSetMilli(&timeSpec, i64Value); RTTIME time; RTTimeExplode(&time, &timeSpec); #else /// @todo (dmik) until RTTimeImplode and friends are done time_t t = (time_t)(i64Value / 1000); tm *ptm = gmtime(&t); if (!ptm) return VERR_PARSE_ERROR; tm time = *ptm; time.tm_year += 1900; time.tm_mon += 1; #endif // Store xsd:dateTime. The format is: // '-'? yyyy '-' mm '-' dd 'T' hh ':' mm ':' ss ('.' s+)? (zzzzzz)? // where zzzzzz is: (('+' | '-') hh ':' mm) | 'Z' char aszBuf [256]; RTStrPrintf(aszBuf, sizeof(aszBuf), "%04ld-%02hd-%02hdT%02hd:%02hd:%02hdZ", #if 0 time.i32Year, (uint16_t) time.u8Month, (uint16_t) time.u8MonthDay, (uint16_t) time.u8Hour, (uint16_t) time.u8Minute, (uint16_t) time.u8Second); #else /// @todo (dmik) until RTTimeImplode and friends are done time.tm_year, time.tm_mon, time.tm_mday, time.tm_hour, time.tm_min, time.tm_sec); #endif return hnode->SetString (pszName, aszBuf, strlen (aszBuf), false); } CFGLDRR3DECL(int) CFGLDRDeleteAttribute(CFGNODE hnode, const char *pszName) { if (!hnode) { return VERR_INVALID_HANDLE; } if (!pszName) { return VERR_INVALID_POINTER; } return hnode->DeleteAttribute (pszName); } CFGLDRR3DECL(int) CFGLDRInitialize (void) { int rc = VINF_SUCCESS; if (!initXML ()) { rc = VERR_NOT_SUPPORTED; } return rc; } CFGLDRR3DECL(void) CFGLDRShutdown (void) { /// @todo delete CfgLoaders terminateXML (); } #ifdef STANDALONE_TEST #include int main(int argc, char **argv) { Log(("Configuration loader standalone test\n")); CFGHANDLE hcfg = 0; CFGNODE hnode = 0; unsigned count = 0; unsigned i; char *cfgFilename = "vboxcfg.xml"; char *cfgFilenameSaved = "testas.xml"; /* * Initialize the VBox runtime without loading * the kernel support driver */ int rc = RTR3Init(false); if (VBOX_FAILURE(rc)) { Log(("RTInit failed %d\n", rc)); goto l_exit_0; } rc = CFGLDRInitialize(); if (VBOX_FAILURE(rc)) { Log(("Initialize failed %d\n", rc)); goto l_exit_0; } rc = CFGLDRLoad(&hcfg, cfgFilename, "vboxcfg.xsd"); if (VBOX_FAILURE(rc)) { Log(("Load failed %d\n", rc)); goto l_exit_0; } printf("Configuration loaded from %s\n", cfgFilename); rc = CFGLDRCreateNode(hcfg, "Configuration/Something/DeviceManager/DeviceList", &hnode); if (VBOX_FAILURE(rc)) { Log(("CreateNode failed %d\n", rc)); goto l_exit_1; } rc = CFGLDRSetString(hnode, "GUID", "testtestte"); rc = CFGLDRReleaseNode(hnode); rc = CFGLDRGetNode(hcfg, "Configuration/Managers/DeviceManager/DeviceList", 0, &hnode); if (VBOX_FAILURE(rc)) { Log(("GetNode failed %d\n", rc)); goto l_exit_1; } rc = CFGLDRCountChildren(hnode, "Device", &count); if (VBOX_FAILURE(rc)) { Log(("CountChildren failed %d\n", rc)); goto l_exit_2; } Log(("Number of child nodes %d\n", count)); for (i = 0; i < count; i++) { CFGNODE hchild = 0; unsigned cbValue; char szValue[256]; rc = CFGLDRGetChildNode(hnode, "Device", i, &hchild); if (VBOX_FAILURE(rc)) { Log(("GetChildNode failed %d\n", rc)); goto l_exit_2; } unsigned dummy; rc = CFGLDRCountChildren(hchild, NULL, &dummy); Log(("Number of child nodes of Device %d\n", dummy)); int32_t value; rc = CFGLDRQueryInt32(hchild, "int", &value); Log(("Child node %d (rc = %d): int = %d\n", i, rc, value)); rc = CFGLDRQueryString(hchild, NULL, szValue, sizeof (szValue), &cbValue); if (VBOX_FAILURE(rc)) { Log(("QueryString failed %d\n", rc)); } Log(("Child node %d: (length = %d) = '%s'\n", i, cbValue, szValue)); rc = CFGLDRSetString(hchild, "GUID", "testtesttest"); if (VBOX_FAILURE(rc)) { Log(("SetString failed %d\n", rc)); } rc = CFGLDRDeleteAttribute(hchild, "int"); Log(("Attribute delete %d (rc = %d)\n", i, rc)); CFGLDRSetBin(hchild, "Bin", (void *)CFGLDRSetBin, 100); CFGLDRSetInt32(hchild, "int32", 1973); // CFGLDRSetUInt64(hchild, "uint64", 0x1973); CFGNODE hnew = 0; CFGLDRCreateChildNode(hchild, "testnode", &hnew); rc = CFGLDRSetString(hchild, NULL, "her"); if (VBOX_FAILURE(rc)) { Log(("_SetString failed %d\n", rc)); } rc = CFGLDRSetString(hnew, NULL, "neher"); if (VBOX_FAILURE(rc)) { Log(("+SetString failed %d\n", rc)); } CFGLDRReleaseNode(hchild); } rc = CFGLDRSaveAs(hcfg, cfgFilenameSaved); if (VBOX_FAILURE(rc)) { Log(("SaveAs failed %d\n", rc)); goto l_exit_2; } Log(("Configuration saved as %s\n", cfgFilenameSaved)); l_exit_2: rc = CFGLDRReleaseNode(hnode); if (VBOX_FAILURE(rc)) { Log(("ReleaseNode failed %d\n", rc)); } l_exit_1: rc = CFGLDRFree(hcfg); if (VBOX_FAILURE(rc)) { Log(("Load failed %d\n", rc)); } l_exit_0: CFGLDRShutdown(); Log(("Test completed.")); return rc; } #endif