/* -*- 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 "reflwrit.hxx" #include #include #include "reflcnst.hxx" namespace { inline OString toByteString(rtl_uString const * str) { return OString( str->buffer, str->length, RTL_TEXTENCODING_UTF8, OUSTRING_TO_OSTRING_CVTFLAGS); } } static sal_Unicode NULL_WSTRING[1] = { 0 }; #define BLOP_OFFSET_MAGIC 0 #define BLOP_OFFSET_SIZE (BLOP_OFFSET_MAGIC + sizeof(sal_uInt32)) #define BLOP_OFFSET_MINOR (BLOP_OFFSET_SIZE + sizeof(sal_uInt32)) #define BLOP_OFFSET_MAJOR (BLOP_OFFSET_MINOR + sizeof(sal_uInt16)) #define BLOP_OFFSET_N_ENTRIES (BLOP_OFFSET_MAJOR + sizeof(sal_uInt16)) #define BLOP_HEADER_N_ENTRIES 6 #define BLOP_FIELD_N_ENTRIES 6 #define BLOP_METHOD_N_ENTRIES 5 #define BLOP_PARAM_N_ENTRIES 3 #define BLOP_REFERENCE_N_ENTRIES 4 sal_uInt32 UINT16StringLen(const sal_uInt8* wstring) { if (!wstring) return 0; const sal_uInt8* b = wstring; while (b[0] || b[1]) b += sizeof(sal_uInt16); return ((b - wstring) / sizeof(sal_uInt16)); } sal_uInt32 writeString(sal_uInt8* buffer, const sal_Unicode* v) { sal_uInt32 len = rtl_ustr_getLength(v) + 1; sal_uInt32 i; sal_uInt8* buff = buffer; for (i = 0; i < len; i++) { buff += writeUINT16(buff, (sal_uInt16) v[i]); } return (buff - buffer); } sal_uInt32 readString(const sal_uInt8* buffer, sal_Unicode* v, sal_uInt32 maxSize) { sal_uInt32 len = UINT16StringLen(buffer) + 1; sal_uInt32 i; sal_uInt8* buff = const_cast(buffer); if(len > maxSize / 2) { len = maxSize / 2; } for (i = 0; i < (len - 1); i++) { sal_uInt16 aChar; buff += readUINT16(buff, aChar); v[i] = (sal_Unicode) aChar; } v[len - 1] = L'\0'; return (buff - buffer); } sal_uInt32 writeFloat(sal_uInt8* buffer, float v) { union { float v; sal_uInt32 b; } x; x.v = v; #ifdef REGTYPE_IEEE_NATIVE writeUINT32(buffer, x.b); #else # error no IEEE #endif return sizeof(sal_uInt32); } sal_uInt32 writeDouble(sal_uInt8* buffer, double v) { union { double v; struct { sal_uInt32 b1; sal_uInt32 b2; } b; } x; x.v = v; #ifdef REGTYPE_IEEE_NATIVE # ifdef OSL_BIGENDIAN writeUINT32(buffer, x.b.b1); writeUINT32(buffer + sizeof(sal_uInt32), x.b.b2); # else writeUINT32(buffer, x.b.b2); writeUINT32(buffer + sizeof(sal_uInt32), x.b.b1); # endif #else # error no IEEE #endif return (sizeof(sal_uInt32) + sizeof(sal_uInt32)); } /************************************************************************** buffer write functions **************************************************************************/ /************************************************************************** struct CPInfo **************************************************************************/ struct CPInfo { CPInfoTag m_tag; union { const sal_Char* aUtf8; RTUik* aUik; RTConstValueUnion aConst; } m_value; sal_uInt16 m_index; struct CPInfo* m_next; CPInfo(CPInfoTag tag, struct CPInfo* prev); sal_uInt32 getBlopSize() const; sal_uInt32 toBlop(sal_uInt8* buffer); }; CPInfo::CPInfo(CPInfoTag tag, struct CPInfo* prev) : m_tag(tag) , m_index(0) , m_next(nullptr) { if (prev) { m_index = prev->m_index + 1; prev->m_next = this; } } sal_uInt32 CPInfo::getBlopSize() const { sal_uInt32 size = sizeof(sal_uInt32) /* size */ + sizeof(sal_uInt16) /* tag */; switch (m_tag) { case CP_TAG_CONST_BOOL: size += sizeof(sal_uInt8); break; case CP_TAG_CONST_BYTE: size += sizeof(sal_uInt8); break; case CP_TAG_CONST_INT16: size += sizeof(sal_Int16); break; case CP_TAG_CONST_UINT16: size += sizeof(sal_uInt16); break; case CP_TAG_CONST_INT32: size += sizeof(sal_Int32); break; case CP_TAG_CONST_UINT32: size += sizeof(sal_uInt32); break; case CP_TAG_CONST_INT64: size += sizeof(sal_Int64); break; case CP_TAG_CONST_UINT64: size += sizeof(sal_uInt64); break; case CP_TAG_CONST_FLOAT: size += sizeof(sal_uInt32); break; case CP_TAG_CONST_DOUBLE: size += sizeof(sal_uInt32) + sizeof(sal_uInt32); break; case CP_TAG_CONST_STRING: size += (rtl_ustr_getLength(m_value.aConst.aString) + 1) * sizeof(sal_uInt16); break; case CP_TAG_UTF8_NAME: size += strlen(m_value.aUtf8) + 1; break; case CP_TAG_UIK: size += sizeof(sal_uInt32) + sizeof(sal_uInt16) + sizeof(sal_uInt16) + sizeof(sal_uInt32) + sizeof(sal_uInt32); break; default: break; } return size; } sal_uInt32 CPInfo::toBlop(sal_uInt8* buffer) { sal_uInt8* buff = buffer; buff += writeUINT32(buff, getBlopSize()); buff += writeUINT16(buff, (sal_uInt16) m_tag); switch (m_tag) { case CP_TAG_CONST_BOOL: buff += writeBYTE(buff, (sal_uInt8) m_value.aConst.aBool); break; case CP_TAG_CONST_BYTE: buff += writeBYTE( buff, static_cast< sal_uInt8 >(m_value.aConst.aByte)); break; case CP_TAG_CONST_INT16: buff += writeINT16(buff, m_value.aConst.aShort); break; case CP_TAG_CONST_UINT16: buff += writeINT16(buff, m_value.aConst.aUShort); break; case CP_TAG_CONST_INT32: buff += writeINT32(buff, m_value.aConst.aLong); break; case CP_TAG_CONST_UINT32: buff += writeUINT32(buff, m_value.aConst.aULong); break; case CP_TAG_CONST_INT64: buff += writeUINT64(buff, m_value.aConst.aHyper); break; case CP_TAG_CONST_UINT64: buff += writeUINT64(buff, m_value.aConst.aUHyper); break; case CP_TAG_CONST_FLOAT: buff += writeFloat(buff, m_value.aConst.aFloat); break; case CP_TAG_CONST_DOUBLE: buff += writeDouble(buff, m_value.aConst.aDouble); break; case CP_TAG_CONST_STRING: buff += writeString(buff, m_value.aConst.aString); break; case CP_TAG_UTF8_NAME: buff += writeUtf8(buff, m_value.aUtf8); break; case CP_TAG_UIK: buff += writeUINT32(buff, m_value.aUik->m_Data1); buff += writeUINT16(buff, m_value.aUik->m_Data2); buff += writeUINT16(buff, m_value.aUik->m_Data3); buff += writeUINT32(buff, m_value.aUik->m_Data4); buff += writeUINT32(buff, m_value.aUik->m_Data5); break; default: break; } return (buff - buffer); } /************************************************************************** class FieldEntry **************************************************************************/ class FieldEntry { public: OString m_name; OString m_typeName; OString m_doku; OString m_fileName; RTFieldAccess m_access; RTValueType m_constValueType; RTConstValueUnion m_constValue; FieldEntry(); ~FieldEntry(); void setData(const OString& name, const OString& typeName, const OString& doku, const OString& fileName, RTFieldAccess access, RTValueType constValueType, RTConstValueUnion constValue); // throws std::bad_alloc }; FieldEntry::FieldEntry() : m_access(RTFieldAccess::INVALID) , m_constValueType(RT_TYPE_NONE) { } FieldEntry::~FieldEntry() { if ( (m_constValueType == RT_TYPE_STRING) && m_constValue.aString && (m_constValue.aString != NULL_WSTRING) ) { delete[] m_constValue.aString; } } void FieldEntry::setData(const OString& name, const OString& typeName, const OString& doku, const OString& fileName, RTFieldAccess access, RTValueType constValueType, RTConstValueUnion constValue) { sal_Unicode * newValue = nullptr; if (constValueType == RT_TYPE_STRING && constValue.aString != nullptr) { sal_Int32 n = rtl_ustr_getLength(constValue.aString) + 1; newValue = new sal_Unicode[n]; memcpy(newValue, constValue.aString, n * sizeof (sal_Unicode)); } m_name = name; m_typeName = typeName; m_doku = doku; m_fileName = fileName; if ( (m_constValueType == RT_TYPE_STRING) && m_constValue.aString && (m_constValue.aString != NULL_WSTRING) ) { delete[] m_constValue.aString; } m_access = access; m_constValueType = constValueType; if (m_constValueType == RT_TYPE_STRING) { if (constValue.aString == nullptr) m_constValue.aString = NULL_WSTRING; else { m_constValue.aString = newValue; } } else { m_constValue = constValue; } } /************************************************************************** class ParamEntry **************************************************************************/ class ParamEntry { public: OString m_typeName; OString m_name; RTParamMode m_mode; ParamEntry(); void setData(const OString& typeName, const OString& name, RTParamMode mode); }; ParamEntry::ParamEntry() : m_mode(RT_PARAM_INVALID) { } void ParamEntry::setData(const OString& typeName, const OString& name, RTParamMode mode) { m_name = name; m_typeName = typeName; m_mode = mode; } /************************************************************************** class ReferenceEntry **************************************************************************/ class ReferenceEntry { public: OString m_name; OString m_doku; RTReferenceType m_type; RTFieldAccess m_access; ReferenceEntry(); void setData(const OString& name, RTReferenceType refType, const OString& doku, RTFieldAccess access); }; ReferenceEntry::ReferenceEntry() : m_type(RTReferenceType::INVALID) , m_access(RTFieldAccess::INVALID) { } void ReferenceEntry::setData(const OString& name, RTReferenceType refType, const OString& doku, RTFieldAccess access) { m_name = name; m_doku = doku; m_type = refType; m_access = access; } /************************************************************************** class MethodEntry **************************************************************************/ class MethodEntry { public: OString m_name; OString m_returnTypeName; RTMethodMode m_mode; sal_uInt16 m_paramCount; std::unique_ptr m_params; sal_uInt16 m_excCount; std::unique_ptr m_excNames; OString m_doku; MethodEntry(); void setData(const OString& name, const OString& returnTypeName, RTMethodMode mode, sal_uInt16 paramCount, sal_uInt16 excCount, const OString& doku); void setExcName(sal_uInt16 excIndex, const OString& name) const; protected: void reallocParams(sal_uInt16 size); void reallocExcs(sal_uInt16 size); }; MethodEntry::MethodEntry() : m_mode(RTMethodMode::INVALID) , m_paramCount(0) , m_excCount(0) { } void MethodEntry::setData(const OString& name, const OString& returnTypeName, RTMethodMode mode, sal_uInt16 paramCount, sal_uInt16 excCount, const OString& doku) { m_name = name; m_returnTypeName = returnTypeName; m_doku = doku; m_mode = mode; reallocParams(paramCount); reallocExcs(excCount); } void MethodEntry::setExcName(sal_uInt16 excIndex, const OString& name) const { if (excIndex < m_excCount) { m_excNames[excIndex] = name; } } void MethodEntry::reallocParams(sal_uInt16 size) { ParamEntry* newParams; if (size) newParams = new ParamEntry[size]; else newParams = nullptr; if (m_paramCount) { sal_uInt16 i; sal_uInt16 mn = size < m_paramCount ? size : m_paramCount; for (i = 0; i < mn; i++) { newParams[i].setData(m_params[i].m_typeName, m_params[i].m_name, m_params[i].m_mode); } m_params.reset(); } m_paramCount = size; m_params.reset( newParams ); } void MethodEntry::reallocExcs(sal_uInt16 size) { OString* newExcNames; if (size) newExcNames = new OString[size]; else newExcNames = nullptr; sal_uInt16 i; sal_uInt16 mn = size < m_excCount ? size : m_excCount; for (i = 0; i < mn; i++) { newExcNames[i] = m_excNames[i]; } m_excCount = size; m_excNames.reset( newExcNames ); } /************************************************************************** class TypeRegistryEntry **************************************************************************/ class TypeWriter { public: sal_uInt32 m_refCount; typereg_Version m_version; RTTypeClass m_typeClass; OString m_typeName; sal_uInt16 m_nSuperTypes; std::unique_ptr m_superTypeNames; OString m_doku; OString m_fileName; sal_uInt16 m_fieldCount; FieldEntry* m_fields; sal_uInt16 m_methodCount; MethodEntry* m_methods; sal_uInt16 m_referenceCount; ReferenceEntry* m_references; std::unique_ptr m_blop; sal_uInt32 m_blopSize; TypeWriter(typereg_Version version, OString const & documentation, OString const & fileName, RTTypeClass RTTypeClass, bool published, const OString& typeName, sal_uInt16 superTypeCount, sal_uInt16 FieldCount, sal_uInt16 methodCount, sal_uInt16 referenceCount); ~TypeWriter(); void setSuperType(sal_uInt16 index, OString const & name) const; void createBlop(); // throws std::bad_alloc }; TypeWriter::TypeWriter(typereg_Version version, OString const & documentation, OString const & fileName, RTTypeClass RTTypeClass, bool published, const OString& typeName, sal_uInt16 superTypeCount, sal_uInt16 fieldCount, sal_uInt16 methodCount, sal_uInt16 referenceCount) : m_refCount(1) , m_version(version) , m_typeClass( static_cast< enum RTTypeClass >( RTTypeClass | (published ? RT_TYPE_PUBLISHED : 0))) , m_typeName(typeName) , m_nSuperTypes(superTypeCount) , m_doku(documentation) , m_fileName(fileName) , m_fieldCount(fieldCount) , m_fields(nullptr) , m_methodCount(methodCount) , m_methods(nullptr) , m_referenceCount(referenceCount) , m_references(nullptr) , m_blopSize(0) { if (m_nSuperTypes > 0) { m_superTypeNames.reset( new OString[m_nSuperTypes] ); } if (m_fieldCount) m_fields = new FieldEntry[fieldCount]; if (m_methodCount) m_methods = new MethodEntry[methodCount]; if (m_referenceCount) m_references = new ReferenceEntry[referenceCount]; } TypeWriter::~TypeWriter() { if (m_fieldCount) delete[] m_fields; if (m_methodCount) delete[] m_methods; if (m_referenceCount) delete[] m_references; } void TypeWriter::setSuperType(sal_uInt16 index, OString const & name) const { m_superTypeNames[index] = name; } void TypeWriter::createBlop() { //TODO: Fix memory leaks that occur when std::bad_alloc is thrown sal_uInt8* pBlopFields = nullptr; sal_uInt8* pBlopMethods = nullptr; sal_uInt8* pBlopReferences = nullptr; sal_uInt8* pBuffer = nullptr; sal_uInt32 blopFieldsSize = 0; sal_uInt32 blopMethodsSize = 0; sal_uInt32 blopReferenceSize = 0; CPInfo root(CP_TAG_INVALID, nullptr); sal_uInt16 cpIndexThisName = 0; sal_uInt16* cpIndexSuperNames = nullptr; sal_uInt16 cpIndexDoku = 0; sal_uInt16 cpIndexFileName = 0; CPInfo* pInfo = nullptr; sal_uInt16 entrySize = sizeof(sal_uInt16); sal_uInt32 blopHeaderEntrySize = BLOP_OFFSET_N_ENTRIES + entrySize + (BLOP_HEADER_N_ENTRIES * entrySize); sal_uInt32 blopFieldEntrySize = BLOP_FIELD_N_ENTRIES * entrySize; sal_uInt32 blopMethodEntrySize = BLOP_METHOD_N_ENTRIES * entrySize; sal_uInt32 blopParamEntrySize = BLOP_PARAM_N_ENTRIES * entrySize; sal_uInt32 blopReferenceEntrySize = BLOP_REFERENCE_N_ENTRIES * entrySize; sal_uInt32 blopSize = blopHeaderEntrySize; // create CP entry for this name pInfo = new CPInfo(CP_TAG_UTF8_NAME, &root); pInfo->m_value.aUtf8 = m_typeName.getStr(); cpIndexThisName = pInfo->m_index; // nSuperTypes blopSize += entrySize; // create CP entry for super names if (m_nSuperTypes) { blopSize += m_nSuperTypes * entrySize; cpIndexSuperNames = new sal_uInt16[m_nSuperTypes]; for (sal_uInt32 i=0; i < m_nSuperTypes; i++) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_superTypeNames[i].getStr(); cpIndexSuperNames[i] = pInfo->m_index; } } // create CP entry for doku if (!m_doku.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_doku.getStr(); cpIndexDoku = pInfo->m_index; } // create CP entry for idl source filename if (!m_fileName.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_fileName.getStr(); cpIndexFileName = pInfo->m_index; } // fields blop blopSize += sizeof(sal_uInt16); // fieldCount + nFieldEntries if (m_fieldCount) { sal_uInt16 cpIndexName = 0; sal_uInt16 cpIndexTypeName = 0; sal_uInt16 cpIndexValue = 0; sal_uInt16 cpIndexDoku2 = 0; sal_uInt16 cpIndexFileName2 = 0; // nFieldEntries + n fields blopFieldsSize = sizeof(sal_uInt16) + (m_fieldCount * blopFieldEntrySize); blopSize += blopFieldsSize; pBlopFields = new sal_uInt8[blopFieldsSize]; pBuffer = pBlopFields; pBuffer += writeUINT16(pBuffer, BLOP_FIELD_N_ENTRIES); for (sal_uInt16 i = 0; i < m_fieldCount; i++) { cpIndexName = 0; cpIndexTypeName = 0; cpIndexValue = 0; cpIndexDoku2 = 0; cpIndexFileName2 = 0; pBuffer += writeUINT16(pBuffer, static_cast(m_fields[i].m_access)); if (!m_fields[i].m_name.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_fields[i].m_name.getStr(); cpIndexName = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexName); if (!m_fields[i].m_typeName.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_fields[i].m_typeName.getStr(); cpIndexTypeName = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexTypeName); if (m_fields[i].m_constValueType != RT_TYPE_NONE) { pInfo = new CPInfo((CPInfoTag)m_fields[i].m_constValueType, pInfo); pInfo->m_value.aConst = m_fields[i].m_constValue; cpIndexValue = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexValue); if (!m_fields[i].m_doku.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_fields[i].m_doku.getStr(); cpIndexDoku2 = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexDoku2); if (!m_fields[i].m_fileName.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_fields[i].m_fileName.getStr(); cpIndexFileName2 = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexFileName2); } } // methods blop blopSize += sizeof(sal_uInt16); // methodCount if (m_methodCount) { std::unique_ptr pMethodEntrySize( new sal_uInt16[m_methodCount] ); sal_uInt16 cpIndexName = 0; sal_uInt16 cpIndexReturn = 0; sal_uInt16 cpIndexDoku2 = 0; // nMethodEntries + nParamEntries blopMethodsSize = (2 * sizeof(sal_uInt16)); for (sal_uInt16 i = 0; i < m_methodCount; i++) { pMethodEntrySize[i] = (sal_uInt16) ( blopMethodEntrySize + // header sizeof(sal_uInt16) + // parameterCount (m_methods[i].m_paramCount * blopParamEntrySize) + // exceptions sizeof(sal_uInt16) + // exceptionCount (m_methods[i].m_excCount * sizeof(sal_uInt16)) ); // exceptions blopMethodsSize += pMethodEntrySize[i]; } pBlopMethods = new sal_uInt8[blopMethodsSize]; blopSize += blopMethodsSize; pBuffer = pBlopMethods; pBuffer += writeUINT16(pBuffer, BLOP_METHOD_N_ENTRIES); pBuffer += writeUINT16(pBuffer, BLOP_PARAM_N_ENTRIES ); for (sal_uInt16 i = 0; i < m_methodCount; i++) { cpIndexReturn = 0; cpIndexDoku2 = 0; pBuffer += writeUINT16(pBuffer, pMethodEntrySize[i]); pBuffer += writeUINT16( pBuffer, sal::static_int_cast< sal_uInt16 >(m_methods[i].m_mode)); if (!m_methods[i].m_name.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_methods[i].m_name.getStr(); cpIndexName = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexName); cpIndexName = 0; if (!m_methods[i].m_returnTypeName.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_methods[i].m_returnTypeName.getStr(); cpIndexReturn = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexReturn); if (!m_methods[i].m_doku.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_methods[i].m_doku.getStr(); cpIndexDoku2 = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexDoku2); sal_uInt16 j; pBuffer += writeUINT16(pBuffer, m_methods[i].m_paramCount); for (j = 0; j < m_methods[i].m_paramCount; j++) { if (!m_methods[i].m_params[j].m_typeName.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_methods[i].m_params[j].m_typeName.getStr(); cpIndexName = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexName); cpIndexName = 0; pBuffer += writeUINT16( pBuffer, sal::static_int_cast< sal_uInt16 >( m_methods[i].m_params[j].m_mode)); if (!m_methods[i].m_params[j].m_name.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_methods[i].m_params[j].m_name.getStr(); cpIndexName = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexName); cpIndexName = 0; } pBuffer += writeUINT16(pBuffer, m_methods[i].m_excCount); for (j = 0; j < m_methods[i].m_excCount; j++) { if (!m_methods[i].m_excNames[j].isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_methods[i].m_excNames[j].getStr(); cpIndexName = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexName); cpIndexName = 0; } } } // reference blop blopSize += entrySize; // referenceCount if (m_referenceCount) { sal_uInt16 cpIndexName = 0; sal_uInt16 cpIndexDoku2 = 0; // nReferenceEntries + n references blopReferenceSize = entrySize + (m_referenceCount * blopReferenceEntrySize); blopSize += blopReferenceSize; pBlopReferences = new sal_uInt8[blopReferenceSize]; pBuffer = pBlopReferences; pBuffer += writeUINT16(pBuffer, BLOP_REFERENCE_N_ENTRIES); for (sal_uInt16 i = 0; i < m_referenceCount; i++) { pBuffer += writeUINT16( pBuffer, sal::static_int_cast< sal_uInt16 >(m_references[i].m_type)); cpIndexName = 0; cpIndexDoku2 = 0; if (!m_references[i].m_name.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_references[i].m_name.getStr(); cpIndexName = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexName); if (!m_references[i].m_doku.isEmpty()) { pInfo = new CPInfo(CP_TAG_UTF8_NAME, pInfo); pInfo->m_value.aUtf8 = m_references[i].m_doku.getStr(); cpIndexDoku2 = pInfo->m_index; } pBuffer += writeUINT16(pBuffer, cpIndexDoku2); pBuffer += writeUINT16(pBuffer, static_cast(m_references[i].m_access)); } } // get CP infos blop-length pInfo = root.m_next; sal_uInt32 cpBlopSize = 0; sal_uInt16 cpCount = 0; while (pInfo) { cpBlopSize += pInfo->getBlopSize(); cpCount++; pInfo = pInfo->m_next; } blopSize += cpBlopSize; blopSize += sizeof(sal_uInt16); // constantPoolCount // write all in flat buffer sal_uInt8 * blop = new sal_uInt8[blopSize]; pBuffer = blop; // Assumes two's complement arithmetic with modulo-semantics: pBuffer += writeUINT32(pBuffer, magic + m_version); pBuffer += writeUINT32(pBuffer, blopSize); pBuffer += writeUINT16(pBuffer, minorVersion); pBuffer += writeUINT16(pBuffer, majorVersion); pBuffer += writeUINT16(pBuffer, BLOP_HEADER_N_ENTRIES); pBuffer += writeUINT16(pBuffer, (sal_uInt16)RT_UNO_IDL); pBuffer += writeUINT16(pBuffer, (sal_uInt16)m_typeClass); pBuffer += writeUINT16(pBuffer, cpIndexThisName); pBuffer += writeUINT16(pBuffer, 0); // cpIndexUik pBuffer += writeUINT16(pBuffer, cpIndexDoku); pBuffer += writeUINT16(pBuffer, cpIndexFileName); // write supertypes pBuffer += writeUINT16(pBuffer, m_nSuperTypes); if (m_nSuperTypes) { for (sal_uInt32 i=0; i < m_nSuperTypes; i++) { pBuffer += writeUINT16(pBuffer, cpIndexSuperNames[i]); } delete[] cpIndexSuperNames; } pBuffer += writeUINT16(pBuffer, cpCount); // write and delete CP infos pInfo = root.m_next; while (pInfo) { CPInfo* pNextInfo = pInfo->m_next; pBuffer += pInfo->toBlop(pBuffer); delete pInfo; pInfo = pNextInfo; } auto writeList = [&pBuffer]( sal_uInt16 count, sal_uInt8 * data, sal_uInt32 size) { pBuffer += writeUINT16(pBuffer, count); if (size != 0) { memcpy(pBuffer, data, size); pBuffer += size; } }; // write fields writeList(m_fieldCount, pBlopFields, blopFieldsSize); // write methods writeList(m_methodCount, pBlopMethods, blopMethodsSize); // write references writeList(m_referenceCount, pBlopReferences, blopReferenceSize); delete[] pBlopFields; delete[] pBlopMethods; delete[] pBlopReferences; m_blop.reset( blop ); m_blopSize = blopSize; } /************************************************************************** C-API **************************************************************************/ extern "C" { static void TYPEREG_CALLTYPE release(TypeWriterImpl hEntry) { TypeWriter* pEntry = static_cast(hEntry); if (pEntry != nullptr) { if (--pEntry->m_refCount == 0) delete pEntry; } } sal_Bool TYPEREG_CALLTYPE typereg_writer_setFieldData( void * handle, sal_uInt16 index, rtl_uString const * documentation, rtl_uString const * fileName, RTFieldAccess flags, rtl_uString const * name, rtl_uString const * typeName, RTValueType valueType, RTConstValueUnion valueValue) SAL_THROW_EXTERN_C() { try { static_cast< TypeWriter * >(handle)->m_fields[index].setData( toByteString(name), toByteString(typeName), toByteString(documentation), toByteString(fileName), flags, valueType, valueValue); } catch (std::bad_alloc &) { return false; } return true; } static void TYPEREG_CALLTYPE setFieldData(TypeWriterImpl hEntry, sal_uInt16 index, rtl_uString const * name, rtl_uString const * typeName, rtl_uString const * doku, rtl_uString const * fileName, RTFieldAccess access, RTValueType valueType, RTConstValueUnion constValue) { typereg_writer_setFieldData( hEntry, index, doku, fileName, access, name, typeName, valueType, constValue); } sal_Bool TYPEREG_CALLTYPE typereg_writer_setMethodData( void * handle, sal_uInt16 index, rtl_uString const * documentation, RTMethodMode flags, rtl_uString const * name, rtl_uString const * returnTypeName, sal_uInt16 parameterCount, sal_uInt16 exceptionCount) SAL_THROW_EXTERN_C() { try { static_cast< TypeWriter * >(handle)->m_methods[index].setData( toByteString(name), toByteString(returnTypeName), flags, parameterCount, exceptionCount, toByteString(documentation)); } catch (std::bad_alloc &) { return false; } return true; } sal_Bool TYPEREG_CALLTYPE typereg_writer_setMethodParameterData( void const * handle, sal_uInt16 methodIndex, sal_uInt16 parameterIndex, RTParamMode flags, rtl_uString const * name, rtl_uString const * typeName) SAL_THROW_EXTERN_C() { try { static_cast< TypeWriter const * >(handle)-> m_methods[methodIndex].m_params[parameterIndex].setData( toByteString(typeName), toByteString(name), flags); } catch (std::bad_alloc &) { return false; } return true; } sal_Bool TYPEREG_CALLTYPE typereg_writer_setMethodExceptionTypeName( void * handle, sal_uInt16 methodIndex, sal_uInt16 exceptionIndex, rtl_uString const * typeName) SAL_THROW_EXTERN_C() { try { static_cast< TypeWriter * >(handle)->m_methods[methodIndex].setExcName( exceptionIndex, toByteString(typeName)); } catch (std::bad_alloc &) { return false; } return true; } void const * TYPEREG_CALLTYPE typereg_writer_getBlob(void * handle, sal_uInt32 * size) SAL_THROW_EXTERN_C() { TypeWriter * writer = static_cast< TypeWriter * >(handle); if (!writer->m_blop) { try { writer->createBlop(); } catch (std::bad_alloc &) { return nullptr; } } *size = writer->m_blopSize; return writer->m_blop.get(); } static const sal_uInt8* TYPEREG_CALLTYPE getBlop(TypeWriterImpl hEntry) { sal_uInt32 size; return static_cast< sal_uInt8 const * >( typereg_writer_getBlob(hEntry, &size)); } static sal_uInt32 TYPEREG_CALLTYPE getBlopSize(TypeWriterImpl hEntry) { sal_uInt32 size; typereg_writer_getBlob(hEntry, &size); return size; } sal_Bool TYPEREG_CALLTYPE typereg_writer_setReferenceData( void * handle, sal_uInt16 index, rtl_uString const * documentation, RTReferenceType sort, RTFieldAccess flags, rtl_uString const * typeName) SAL_THROW_EXTERN_C() { try { static_cast< TypeWriter * >(handle)->m_references[index].setData( toByteString(typeName), sort, toByteString(documentation), flags); } catch (std::bad_alloc &) { return false; } return true; } void * TYPEREG_CALLTYPE typereg_writer_create( typereg_Version version, rtl_uString const * documentation, rtl_uString const * fileName, RTTypeClass typeClass, sal_Bool published, rtl_uString const * typeName, sal_uInt16 superTypeCount, sal_uInt16 fieldCount, sal_uInt16 methodCount, sal_uInt16 referenceCount) SAL_THROW_EXTERN_C() { try { return new TypeWriter( version, toByteString(documentation), toByteString(fileName), typeClass, published, toByteString(typeName), superTypeCount, fieldCount, methodCount, referenceCount); } catch (std::bad_alloc &) { return nullptr; } } void TYPEREG_CALLTYPE typereg_writer_destroy(void * handle) SAL_THROW_EXTERN_C() { delete static_cast< TypeWriter * >(handle); } sal_Bool TYPEREG_CALLTYPE typereg_writer_setSuperTypeName( void * handle, sal_uInt16 index, rtl_uString const * typeName) SAL_THROW_EXTERN_C() { try { static_cast< TypeWriter * >(handle)->setSuperType( index, toByteString(typeName)); } catch (std::bad_alloc &) { return false; } return true; } static TypeWriterImpl TYPEREG_CALLTYPE createEntry( RTTypeClass typeClass, rtl_uString const * typeName, rtl_uString const * superTypeName, sal_uInt16 fieldCount, sal_uInt16 methodCount, sal_uInt16 referenceCount) { OUString empty; sal_uInt16 superTypeCount = rtl_uString_getLength(superTypeName) == 0 ? 0 : 1; TypeWriterImpl t = typereg_writer_create( TYPEREG_VERSION_0, empty.pData, empty.pData, typeClass, false, typeName, superTypeCount, fieldCount, methodCount, referenceCount); if (superTypeCount > 0) { typereg_writer_setSuperTypeName(t, 0, superTypeName); } return t; } } RegistryTypeWriter::RegistryTypeWriter(RTTypeClass RTTypeClass, const rtl::OUString& typeName, const rtl::OUString& superTypeName, sal_uInt16 fieldCount) : m_hImpl(nullptr) { m_hImpl = createEntry(RTTypeClass, typeName.pData, superTypeName.pData, fieldCount, 0, 0); } RegistryTypeWriter::~RegistryTypeWriter() { release(m_hImpl); } void RegistryTypeWriter::setFieldData( sal_uInt16 index, const rtl::OUString& name, const rtl::OUString& typeName, const rtl::OUString& doku, const rtl::OUString& fileName, RTFieldAccess access, const RTConstValue& constValue) { ::setFieldData(m_hImpl, index, name.pData, typeName.pData, doku.pData, fileName.pData, access, constValue.m_type, constValue.m_value); } const sal_uInt8* RegistryTypeWriter::getBlop() { return ::getBlop(m_hImpl); } sal_uInt32 RegistryTypeWriter::getBlopSize() { return ::getBlopSize(m_hImpl); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */