/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */ /* * 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/. */ #include "Util.hxx" #include #include #include #include #include using namespace ::connectivity; using namespace ::com::sun::star; using namespace ::com::sun::star::sdbc; using namespace ::com::sun::star::uno; using namespace firebird; OUString firebird::sanitizeIdentifier(std::u16string_view rIdentifier) { std::u16string_view sRet = o3tl::trim(rIdentifier); assert(sRet.size() <= 31); // Firebird identifiers cannot be longer than this. return OUString(sRet); } OUString firebird::StatusVectorToString(const ISC_STATUS_ARRAY& rStatusVector, std::u16string_view rCause) { OUStringBuffer buf; const ISC_STATUS* pStatus = reinterpret_cast(&rStatusVector); buf.append("firebird_sdbc error:"); try { char msg[512]; // Size is based on suggestion in docs. while(fb_interpret(msg, sizeof(msg), &pStatus)) { // TODO: verify encoding buf.append("\n*" + OUString(msg, strlen(msg), RTL_TEXTENCODING_UTF8)); } } catch (...) { SAL_WARN("connectivity.firebird", "ignore fb_interpret exception"); } buf.append(OUString::Concat("\ncaused by\n'") + rCause + "'\n"); OUString error = buf.makeStringAndClear(); SAL_WARN("connectivity.firebird", error); return error; } void firebird::evaluateStatusVector(const ISC_STATUS_ARRAY& rStatusVector, std::u16string_view rCause, const uno::Reference< XInterface >& _rxContext) { if (IndicatesError(rStatusVector)) { OUString error = StatusVectorToString(rStatusVector, rCause); throw SQLException(error, _rxContext, OUString(), 1, Any()); } } static sal_Int32 lcl_getNumberType( short aType, NumberSubType aSubType ) { switch(aSubType) { case NumberSubType::Numeric: return DataType::NUMERIC; case NumberSubType::Decimal: return DataType::DECIMAL; default: switch(aType) { case SQL_SHORT: return DataType::SMALLINT; case SQL_LONG: return DataType::INTEGER; case SQL_DOUBLE: return DataType::DOUBLE; case SQL_INT64: return DataType::BIGINT; default: assert(false); // not a number return 0; } } } static sal_Int32 lcl_getCharColumnType( short aType, std::u16string_view sCharset ) { switch(aType) { case SQL_TEXT: if( sCharset == u"OCTETS") return DataType::BINARY; else return DataType::CHAR; case SQL_VARYING: if( sCharset == u"OCTETS") return DataType::VARBINARY; else return DataType::VARCHAR; default: assert(false); return 0; } } sal_Int32 firebird::ColumnTypeInfo::getSdbcType() const { short aType = m_aType & ~1; // Remove last bit -- it is used to denote whether column // can store Null, not needed for type determination short aSubType = m_aSubType; if( m_nScale > 0 ) { // numeric / decimal if(aType == SQL_SHORT || aType == SQL_LONG || aType == SQL_DOUBLE || aType == SQL_INT64) { // if scale is set without subtype then imply numeric if( static_cast(aSubType) == NumberSubType::Other ) aSubType = static_cast(NumberSubType::Numeric); } } switch (aType) { case SQL_TEXT: case SQL_VARYING: return lcl_getCharColumnType(aType, m_sCharsetName); case SQL_SHORT: case SQL_LONG: case SQL_DOUBLE: case SQL_INT64: return lcl_getNumberType(aType, static_cast(aSubType) ); case SQL_FLOAT: return DataType::FLOAT; case SQL_D_FLOAT: return DataType::DOUBLE; case SQL_TIMESTAMP: return DataType::TIMESTAMP; case SQL_BLOB: switch (static_cast(aSubType)) { case BlobSubtype::Blob: return DataType::BLOB; case BlobSubtype::Clob: return DataType::CLOB; case BlobSubtype::Image: return DataType::LONGVARBINARY; default: SAL_WARN("connectivity.firebird", "Unknown subtype for Blob type: " << aSubType); assert(!"Unknown subtype for Blob type"); // Should never happen return 0; } case SQL_ARRAY: return DataType::ARRAY; case SQL_TYPE_TIME: return DataType::TIME; case SQL_TYPE_DATE: return DataType::DATE; case SQL_NULL: return DataType::SQLNULL; case SQL_QUAD: // Is a "Blob ID" according to the docs return 0; // TODO: verify case SQL_BOOLEAN: return DataType::BOOLEAN; default: assert(false); // Should never happen return 0; } } OUString firebird::ColumnTypeInfo::getColumnTypeName() const { sal_Int32 nDataType = this->getSdbcType(); switch (nDataType) { case DataType::BIT: return "BIT"; case DataType::TINYINT: return "TINYINT"; case DataType::SMALLINT: return "SMALLINT"; case DataType::INTEGER: return "INTEGER"; case DataType::BIGINT: return "BIGINT"; case DataType::FLOAT: return "FLOAT"; case DataType::REAL: return "REAL"; case DataType::DOUBLE: return "DOUBLE"; case DataType::NUMERIC: return "NUMERIC"; case DataType::DECIMAL: return "DECIMAL"; case DataType::CHAR: return "CHAR"; case DataType::VARCHAR: return "VARCHAR"; case DataType::LONGVARCHAR: return "LONGVARCHAR"; case DataType::DATE: return "DATE"; case DataType::TIME: return "TIME"; case DataType::TIMESTAMP: return "TIMESTAMP"; case DataType::BINARY: // in Firebird, that is the same datatype "CHAR" as DataType::CHAR, // only with CHARACTER SET OCTETS; we use the synonym CHARACTER // to fool LO into seeing it as different types. return "CHARACTER"; case DataType::VARBINARY: // see above comment about DataType::BINARY. return "CHARACTER VARYING"; case DataType::LONGVARBINARY: return "BLOB SUB_TYPE " + OUString::number(static_cast(BlobSubtype::Image)); case DataType::ARRAY: return "ARRAY"; case DataType::BLOB: return "BLOB SUB_TYPE BINARY"; case DataType::CLOB: return "BLOB SUB_TYPE TEXT"; case DataType::BOOLEAN: return "BOOLEAN"; case DataType::SQLNULL: return "NULL"; default: assert(false); // Should never happen return OUString(); } } short firebird::getFBTypeFromBlrType(short blrType) { switch (blrType) { case blr_text: return SQL_TEXT; case blr_text2: assert(false); return 0; // No idea if this should be supported case blr_varying: return SQL_VARYING; case blr_varying2: assert(false); return 0; // No idea if this should be supported case blr_short: return SQL_SHORT; case blr_long: return SQL_LONG; case blr_float: return SQL_FLOAT; case blr_double: return SQL_DOUBLE; case blr_d_float: return SQL_D_FLOAT; case blr_timestamp: return SQL_TIMESTAMP; case blr_blob: return SQL_BLOB; // case blr_SQL_ARRAY: // return OUString("SQL_ARRAY"); case blr_sql_time: return SQL_TYPE_TIME; case blr_sql_date: return SQL_TYPE_DATE; case blr_int64: return SQL_INT64; // case SQL_NULL: // return OUString("SQL_NULL"); case blr_quad: return SQL_QUAD; case blr_bool: return SQL_BOOLEAN; default: // If this happens we have hit one of the extra types in ibase.h // look up blr_* for a list, e.g. blr_domain_name, blr_not_nullable etc. assert(false); return 0; } } void firebird::mallocSQLVAR(XSQLDA* pSqlda) { // TODO: confirm the sizings below. XSQLVAR* pVar = pSqlda->sqlvar; for (int i=0; i < pSqlda->sqld; i++, pVar++) { int dtype = (pVar->sqltype & ~1); /* drop flag bit for now */ switch(dtype) { case SQL_TEXT: pVar->sqldata = static_cast(malloc(sizeof(char)*pVar->sqllen)); break; case SQL_VARYING: pVar->sqldata = static_cast(malloc(sizeof(char)*pVar->sqllen + 2)); break; case SQL_SHORT: pVar->sqldata = static_cast(malloc(sizeof(sal_Int16))); break; case SQL_LONG: pVar->sqldata = static_cast(malloc(sizeof(sal_Int32))); break; case SQL_FLOAT: pVar->sqldata = static_cast(malloc(sizeof(float))); break; case SQL_DOUBLE: pVar->sqldata = static_cast(malloc(sizeof(double))); break; case SQL_D_FLOAT: pVar->sqldata = static_cast(malloc(sizeof(double))); break; case SQL_TIMESTAMP: pVar->sqldata = static_cast(malloc(sizeof(ISC_TIMESTAMP))); break; // an ARRAY is in fact a BLOB of a specialized type // See https://firebirdsql.org/file/documentation/reference_manuals/fblangref25-en/html/fblangref25-datatypes-bnrytypes.html#fblangref25-datatypes-array case SQL_ARRAY: case SQL_BLOB: pVar->sqldata = static_cast(malloc(sizeof(ISC_QUAD))); break; case SQL_TYPE_TIME: pVar->sqldata = static_cast(malloc(sizeof(ISC_TIME))); break; case SQL_TYPE_DATE: pVar->sqldata = static_cast(malloc(sizeof(ISC_DATE))); break; case SQL_INT64: pVar->sqldata = static_cast(malloc(sizeof(sal_Int64))); break; case SQL_BOOLEAN: pVar->sqldata = static_cast(malloc(sizeof(sal_Bool))); break; // See https://www.firebirdsql.org/file/documentation/html/en/refdocs/fblangref25/firebird-25-language-reference.html#fblangref25-datatypes-special-sqlnull case SQL_NULL: pVar->sqldata = nullptr; break; case SQL_QUAD: assert(false); // TODO: implement break; default: SAL_WARN("connectivity.firebird", "Unknown type: " << dtype); assert(false); break; } /* allocate variable to hold NULL status */ pVar->sqlind = static_cast(malloc(sizeof(short))); } } void firebird::freeSQLVAR(XSQLDA* pSqlda) { XSQLVAR* pVar = pSqlda->sqlvar; for (int i=0; i < pSqlda->sqld; i++, pVar++) { int dtype = (pVar->sqltype & ~1); /* drop flag bit for now */ switch(dtype) { case SQL_TEXT: case SQL_VARYING: case SQL_SHORT: case SQL_LONG: case SQL_FLOAT: case SQL_DOUBLE: case SQL_D_FLOAT: case SQL_TIMESTAMP: // an ARRAY is in fact a BLOB of a specialized type // See https://firebirdsql.org/file/documentation/reference_manuals/fblangref25-en/html/fblangref25-datatypes-bnrytypes.html#fblangref25-datatypes-array case SQL_ARRAY: case SQL_BLOB: case SQL_INT64: case SQL_TYPE_TIME: case SQL_TYPE_DATE: case SQL_BOOLEAN: if(pVar->sqldata) { free(pVar->sqldata); pVar->sqldata = nullptr; } break; case SQL_NULL: // See SQL_NULL case in mallocSQLVAR assert(pVar->sqldata == nullptr); break; case SQL_QUAD: assert(false); // TODO: implement break; default: SAL_WARN("connectivity.firebird", "Unknown type: " << dtype); // assert(false); break; } if(pVar->sqlind) { free(pVar->sqlind); pVar->sqlind = nullptr; } } } sal_Int64 firebird::pow10Integer(int nDecimalCount) { sal_Int64 nRet = 1; for(int i=0; i< nDecimalCount; i++) { nRet *= 10; } return nRet; } /* vim:set shiftwidth=4 softtabstop=4 expandtab cinoptions=b1,g0,N-s cinkeys+=0=break: */