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/*
 * Microsoft JDBC Driver for SQL Server
 * 
 * Copyright(c) Microsoft Corporation All rights reserved.
 * 
 * This program is made available under the terms of the MIT License. See the LICENSE file in the project root for more information.
 */

package com.microsoft.sqlserver.jdbc; 

import static com.microsoft.sqlserver.jdbc.SQLServerConnection.getCachedParsedSQL;
import static com.microsoft.sqlserver.jdbc.SQLServerConnection.parseAndCacheSQL;

import java.io.InputStream;
import java.io.Reader;
import java.math.BigDecimal;
import java.sql.BatchUpdateException;
import java.sql.NClob;
import java.sql.ParameterMetaData;
import java.sql.ResultSet;
import java.sql.RowId;
import java.sql.SQLException;
import java.sql.SQLFeatureNotSupportedException;
import java.sql.SQLXML;
import java.sql.Statement;
import java.text.MessageFormat;
import java.util.ArrayList;
import java.util.Calendar;
import java.util.HashMap;
import java.util.Map;
import java.util.Vector;
import java.util.logging.Level;

import com.microsoft.sqlserver.jdbc.SQLServerConnection.PreparedStatementHandle;
import com.microsoft.sqlserver.jdbc.SQLServerConnection.Sha1HashKey;

/**
 * SQLServerPreparedStatement provides JDBC prepared statement functionality. SQLServerPreparedStatement provides methods for the user to supply
 * parameters as any native Java type and many Java object types.
 * 

* SQLServerPreparedStatement prepares a statement using SQL Server's sp_prepexec and re-uses the returned statement handle for each subsequent * execution of the statement (typically using different parameters provided by the user) *

* SQLServerPreparedStatement supports batching whereby a set of prepared statements are executed in a single database round trip to improve runtime * performance. *

* The API javadoc for JDBC API methods that this class implements are not repeated here. Please see Sun's JDBC API interfaces javadoc for those * details. */ public class SQLServerPreparedStatement extends SQLServerStatement implements ISQLServerPreparedStatement { /** Flag to indicate that it is an internal query to retrieve encryption metadata. */ boolean isInternalEncryptionQuery = false; boolean definitionChanged = false; /** delimiter for multiple statements in a single batch */ private static final int BATCH_STATEMENT_DELIMITER_TDS_71 = 0x80; private static final int BATCH_STATEMENT_DELIMITER_TDS_72 = 0xFF; final int nBatchStatementDelimiter = BATCH_STATEMENT_DELIMITER_TDS_72; /** The prepared type definitions */ private String preparedTypeDefinitions; /** Processed SQL statement text, may not be same as what user initially passed. */ final String userSQL; /** SQL statement with expanded parameter tokens */ private String preparedSQL; /** True if this execute has been called for this statement at least once */ private boolean isExecutedAtLeastOnce = false; /** Reference to cache item for statement handle pooling. Only used to decrement ref count on statement close. */ private PreparedStatementHandle cachedPreparedStatementHandle; /** Hash of user supplied SQL statement used for various cache lookups */ private Sha1HashKey sqlTextCacheKey; /** * Array with parameter names generated in buildParamTypeDefinitions For mapping encryption information to parameters, as the second result set * returned by sp_describe_parameter_encryption doesn't depend on order of input parameter **/ private ArrayList parameterNames; /** Set to true if the statement is a stored procedure call that expects a return value */ final boolean bReturnValueSyntax; /** * The number of OUT parameters to skip in the response to get to the first app-declared OUT parameter. * * When executing prepared and callable statements and/or statements that produce cursored results, the first OUT parameters returned by the * server contain the internal values like the prepared statement handle and the cursor ID and row count. This value indicates how many of those * internal OUT parameters were in the response. */ int outParamIndexAdjustment; /** Set of parameter values in the current batch */ ArrayList batchParamValues; /** The prepared statement handle returned by the server */ private int prepStmtHandle = 0; /** Statement used for getMetadata(). Declared as a field to facilitate closing the statement. */ private SQLServerStatement internalStmt = null; private void setPreparedStatementHandle(int handle) { this.prepStmtHandle = handle; } /** The server handle for this prepared statement. If a value {@literal <} 1 is returned no handle has been created. * * @return * Per the description. * @throws SQLServerException when an error occurs */ public int getPreparedStatementHandle() throws SQLServerException { checkClosed(); return prepStmtHandle; } /** Returns true if this statement has a server handle. * * @return * Per the description. */ private boolean hasPreparedStatementHandle() { return 0 < prepStmtHandle; } /** Resets the server handle for this prepared statement to no handle. */ private void resetPrepStmtHandle() { prepStmtHandle = 0; } /** Flag set to true when statement execution is expected to return the prepared statement handle */ private boolean expectPrepStmtHandle = false; /** * Flag set to true when all encryption metadata of inOutParam is retrieved */ private boolean encryptionMetadataIsRetrieved = false; // Internal function used in tracing String getClassNameInternal() { return "SQLServerPreparedStatement"; } /** * Create a new prepaed statement. * * @param conn * the connection * @param sql * the user's sql * @param nRSType * the result set type * @param nRSConcur * the result set concurrency * @param stmtColEncSetting * the statement column encryption setting * @throws SQLServerException * when an error occurs */ SQLServerPreparedStatement(SQLServerConnection conn, String sql, int nRSType, int nRSConcur, SQLServerStatementColumnEncryptionSetting stmtColEncSetting) throws SQLServerException { super(conn, nRSType, nRSConcur, stmtColEncSetting); if (null == sql) { MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_NullValue")); Object[] msgArgs1 = {"Statement SQL"}; throw new SQLServerException(form.format(msgArgs1), null); } stmtPoolable = true; // Create a cache key for this statement. sqlTextCacheKey = new Sha1HashKey(sql); // Parse or fetch SQL metadata from cache. ParsedSQLCacheItem parsedSQL = getCachedParsedSQL(sqlTextCacheKey); if(null != parsedSQL) { isExecutedAtLeastOnce = true; } else { parsedSQL = parseAndCacheSQL(sqlTextCacheKey, sql); } // Retrieve meta data from cache item. procedureName = parsedSQL.procedureName; bReturnValueSyntax = parsedSQL.bReturnValueSyntax; userSQL = parsedSQL.processedSQL; initParams(parsedSQL.parameterCount); } /** * Close the prepared statement's prepared handle. */ private void closePreparedHandle() { if (!hasPreparedStatementHandle()) return; // If the connection is already closed, don't bother trying to close // the prepared handle. We won't be able to, and it's already closed // on the server anyway. if (connection.isSessionUnAvailable()) { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.finer(this + ": Not closing PreparedHandle:" + prepStmtHandle + "; connection is already closed."); } else { isExecutedAtLeastOnce = false; final int handleToClose = prepStmtHandle; resetPrepStmtHandle(); // Handle unprepare actions through statement pooling. if (null != cachedPreparedStatementHandle) { connection.returnCachedPreparedStatementHandle(cachedPreparedStatementHandle); } // If no reference to a statement pool cache item is found handle unprepare actions through batching @ connection level. else if(connection.isPreparedStatementUnprepareBatchingEnabled()) { connection.enqueueUnprepareStatementHandle(connection.new PreparedStatementHandle(null, handleToClose, executedSqlDirectly, true)); } else { // Non batched behavior (same as pre batch clean-up implementation) if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.finer(this + ": Closing PreparedHandle:" + handleToClose); final class PreparedHandleClose extends UninterruptableTDSCommand { PreparedHandleClose() { super("closePreparedHandle"); } final boolean doExecute() throws SQLServerException { TDSWriter tdsWriter = startRequest(TDS.PKT_RPC); tdsWriter.writeShort((short) 0xFFFF); // procedure name length -> use ProcIDs tdsWriter.writeShort(executedSqlDirectly ? TDS.PROCID_SP_UNPREPARE : TDS.PROCID_SP_CURSORUNPREPARE); tdsWriter.writeByte((byte) 0); // RPC procedure option 1 tdsWriter.writeByte((byte) 0); // RPC procedure option 2 tdsWriter.writeRPCInt(null, handleToClose, false); TDSParser.parse(startResponse(), getLogContext()); return true; } } // Try to close the server cursor. Any failure is caught, logged, and ignored. try { executeCommand(new PreparedHandleClose()); } catch (SQLServerException e) { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.log(Level.FINER, this + ": Error (ignored) closing PreparedHandle:" + handleToClose, e); } if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.finer(this + ": Closed PreparedHandle:" + handleToClose); } // Always run any outstanding discard actions as statement pooling always uses batched sp_unprepare. connection.unprepareUnreferencedPreparedStatementHandles(false); } } /** * Closes this prepared statement. * * Note that the public Statement.close() method performs all of the cleanup work through this internal method which cannot throw any exceptions. * This is done deliberately to ensure that ALL of the object's client-side and server-side state is cleaned up as best as possible, even under * conditions which would normally result in exceptions being thrown. */ final void closeInternal() { super.closeInternal(); // If we have a prepared statement handle, close it. closePreparedHandle(); // Close the statement that was used to generate empty statement from getMetadata(). try { if (null != internalStmt) internalStmt.close(); } catch (SQLServerException e) { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.finer("Ignored error closing internal statement: " + e.getErrorCode() + " " + e.getMessage()); } finally { internalStmt = null; } // Clean up client-side state batchParamValues = null; } /** * Intialize the statement parameters. * * @param nParams * Number of parameters to Intialize. */ /* L0 */ final void initParams(int nParams) { inOutParam = new Parameter[nParams]; for (int i = 0; i < nParams; i++) { inOutParam[i] = new Parameter(Util.shouldHonorAEForParameters(stmtColumnEncriptionSetting, connection)); } } /* L0 */ public final void clearParameters() throws SQLServerException { loggerExternal.entering(getClassNameLogging(), "clearParameters"); checkClosed(); encryptionMetadataIsRetrieved = false; int i; if (inOutParam == null) return; for (i = 0; i < inOutParam.length; i++) { inOutParam[i].clearInputValue(); } loggerExternal.exiting(getClassNameLogging(), "clearParameters"); } /** * Determines whether the statement needs to be reprepared based on a change in any of the type definitions of any of the parameters due to * changes in scale, length, etc., and, if so, sets the new type definition string. */ private boolean buildPreparedStrings(Parameter[] params, boolean renewDefinition) throws SQLServerException { String newTypeDefinitions = buildParamTypeDefinitions(params, renewDefinition); if (null != preparedTypeDefinitions && newTypeDefinitions.equals(preparedTypeDefinitions)) return false; if(preparedTypeDefinitions == null) { definitionChanged = false; } else { definitionChanged = true; } preparedTypeDefinitions = newTypeDefinitions; /* Replace the parameter marker '?' with the param numbers @p1, @p2 etc */ preparedSQL = connection.replaceParameterMarkers(userSQL, params, bReturnValueSyntax); if (bRequestedGeneratedKeys) preparedSQL = preparedSQL + identityQuery; return true; } /** * Build the parameter type definitons for a JDBC prepared statement that will be used to prepare the statement. * * @param params * the statement parameters * @param renewDefinition * True if renewing parameter definition, False otherwise * @throws SQLServerException * when an error occurs. * @return the required data type defintions. */ private String buildParamTypeDefinitions(Parameter[] params, boolean renewDefinition) throws SQLServerException { StringBuilder sb = new StringBuilder(); int nCols = params.length; char cParamName[] = new char[10]; parameterNames = new ArrayList<>(); for (int i = 0; i < nCols; i++) { if (i > 0) sb.append(','); int l = SQLServerConnection.makeParamName(i, cParamName, 0); for (int j = 0; j < l; j++) sb.append(cParamName[j]); sb.append(' '); parameterNames.add(i, (new String(cParamName)).trim()); params[i].renewDefinition = renewDefinition; String typeDefinition = params[i].getTypeDefinition(connection, resultsReader()); if (null == typeDefinition) { MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_valueNotSetForParameter")); Object[] msgArgs = {i + 1}; SQLServerException.makeFromDriverError(connection, this, form.format(msgArgs), null, false); } sb.append(typeDefinition); if (params[i].isOutput()) sb.append(" OUTPUT"); } return sb.toString(); } /** * Execute a query. * * @throws SQLServerException * when an error occurs * @return ResultSet */ public java.sql.ResultSet executeQuery() throws SQLServerException { loggerExternal.entering(getClassNameLogging(), "executeQuery"); if (loggerExternal.isLoggable(Level.FINER) && Util.IsActivityTraceOn()) { loggerExternal.finer(toString() + " ActivityId: " + ActivityCorrelator.getNext().toString()); } checkClosed(); executeStatement(new PrepStmtExecCmd(this, EXECUTE_QUERY)); loggerExternal.exiting(getClassNameLogging(), "executeQuery"); return resultSet; } /** * Execute a query without cursoring for metadata. * * @throws SQLServerException * @return ResultSet */ final java.sql.ResultSet executeQueryInternal() throws SQLServerException { checkClosed(); executeStatement(new PrepStmtExecCmd(this, EXECUTE_QUERY_INTERNAL)); return resultSet; } public int executeUpdate() throws SQLServerException { loggerExternal.entering(getClassNameLogging(), "executeUpdate"); if (loggerExternal.isLoggable(Level.FINER) && Util.IsActivityTraceOn()) { loggerExternal.finer(toString() + " ActivityId: " + ActivityCorrelator.getNext().toString()); } checkClosed(); executeStatement(new PrepStmtExecCmd(this, EXECUTE_UPDATE)); // this shouldn't happen, caller probably meant to call executeLargeUpdate if (updateCount < Integer.MIN_VALUE || updateCount > Integer.MAX_VALUE) SQLServerException.makeFromDriverError(connection, this, SQLServerException.getErrString("R_updateCountOutofRange"), null, true); loggerExternal.exiting(getClassNameLogging(), "executeUpdate", updateCount); return (int) updateCount; } public long executeLargeUpdate() throws SQLServerException { DriverJDBCVersion.checkSupportsJDBC42(); loggerExternal.entering(getClassNameLogging(), "executeLargeUpdate"); if (loggerExternal.isLoggable(Level.FINER) && Util.IsActivityTraceOn()) { loggerExternal.finer(toString() + " ActivityId: " + ActivityCorrelator.getNext().toString()); } checkClosed(); executeStatement(new PrepStmtExecCmd(this, EXECUTE_UPDATE)); loggerExternal.exiting(getClassNameLogging(), "executeLargeUpdate", updateCount); return updateCount; } /** * Execute a query or non query statement. * * @throws SQLServerException * when an error occurs * @return true if the statement returned a result set */ public boolean execute() throws SQLServerException { loggerExternal.entering(getClassNameLogging(), "execute"); if (loggerExternal.isLoggable(Level.FINER) && Util.IsActivityTraceOn()) { loggerExternal.finer(toString() + " ActivityId: " + ActivityCorrelator.getNext().toString()); } checkClosed(); executeStatement(new PrepStmtExecCmd(this, EXECUTE)); loggerExternal.exiting(getClassNameLogging(), "execute", null != resultSet); return null != resultSet; } private final class PrepStmtExecCmd extends TDSCommand { private final SQLServerPreparedStatement stmt; PrepStmtExecCmd(SQLServerPreparedStatement stmt, int executeMethod) { super(stmt.toString() + " executeXXX", queryTimeout); this.stmt = stmt; stmt.executeMethod = executeMethod; } final boolean doExecute() throws SQLServerException { stmt.doExecutePreparedStatement(this); return false; } final void processResponse(TDSReader tdsReader) throws SQLServerException { ensureExecuteResultsReader(tdsReader); processExecuteResults(); } } final void doExecutePreparedStatement(PrepStmtExecCmd command) throws SQLServerException { resetForReexecute(); definitionChanged = false; // If this request might be a query (as opposed to an update) then make // sure we set the max number of rows and max field size for any ResultSet // that may be returned. // // If the app uses Statement.execute to execute an UPDATE or DELETE statement // and has called Statement.setMaxRows to limit the number of rows from an // earlier query, then the number of rows updated/deleted will be limited as // well. // // Note: similar logic in SQLServerStatement.doExecuteStatement setMaxRowsAndMaxFieldSize(); if (loggerExternal.isLoggable(Level.FINER) && Util.IsActivityTraceOn()) { loggerExternal.finer(toString() + " ActivityId: " + ActivityCorrelator.getNext().toString()); } boolean hasExistingTypeDefinitions = preparedTypeDefinitions != null; boolean hasNewTypeDefinitions = true; if (!encryptionMetadataIsRetrieved) { hasNewTypeDefinitions = buildPreparedStrings(inOutParam, false); } if ((Util.shouldHonorAEForParameters(stmtColumnEncriptionSetting, connection)) && (0 < inOutParam.length) && !isInternalEncryptionQuery) { // retrieve paramater encryption metadata if they are not retrieved yet if (!encryptionMetadataIsRetrieved) { getParameterEncryptionMetadata(inOutParam); encryptionMetadataIsRetrieved = true; // maxRows is set to 0 when retreving encryption metadata, // need to set it back setMaxRowsAndMaxFieldSize(); } // fix an issue when inserting unicode into non-encrypted nchar column using setString() and AE is on on Connection hasNewTypeDefinitions = buildPreparedStrings(inOutParam, true); } if (reuseCachedHandle(hasNewTypeDefinitions, false)) { hasNewTypeDefinitions = false; } // Start the request and detach the response reader so that we can // continue using it after we return. TDSWriter tdsWriter = command.startRequest(TDS.PKT_RPC); doPrepExec(tdsWriter, inOutParam, hasNewTypeDefinitions, hasExistingTypeDefinitions); ensureExecuteResultsReader(command.startResponse(getIsResponseBufferingAdaptive())); startResults(); getNextResult(); if (EXECUTE_QUERY == executeMethod && null == resultSet) { SQLServerException.makeFromDriverError(connection, this, SQLServerException.getErrString("R_noResultset"), null, true); } else if (EXECUTE_UPDATE == executeMethod && null != resultSet) { SQLServerException.makeFromDriverError(connection, this, SQLServerException.getErrString("R_resultsetGeneratedForUpdate"), null, false); } } /** * Consume the OUT parameter for the statement object itself. * * When a prepared statement handle is expected as the first OUT parameter from PreparedStatement or CallableStatement execution, then it gets * consumed here. */ boolean consumeExecOutParam(TDSReader tdsReader) throws SQLServerException { final class PrepStmtExecOutParamHandler extends StmtExecOutParamHandler { boolean onRetValue(TDSReader tdsReader) throws SQLServerException { // If no prepared statement handle is expected at this time // then don't consume this OUT parameter as it does not contain // a prepared statement handle. if (!expectPrepStmtHandle) return super.onRetValue(tdsReader); // If a prepared statement handle is expected then consume it // and continue processing. expectPrepStmtHandle = false; Parameter param = new Parameter(Util.shouldHonorAEForParameters(stmtColumnEncriptionSetting, connection)); param.skipRetValStatus(tdsReader); setPreparedStatementHandle(param.getInt(tdsReader)); // Cache the reference to the newly created handle, NOT for cursorable handles. if (null == cachedPreparedStatementHandle && !isCursorable(executeMethod)) { cachedPreparedStatementHandle = connection.registerCachedPreparedStatementHandle(new Sha1HashKey(preparedSQL, preparedTypeDefinitions), prepStmtHandle, executedSqlDirectly); } param.skipValue(tdsReader, true); if (getStatementLogger().isLoggable(java.util.logging.Level.FINER)) getStatementLogger().finer(toString() + ": Setting PreparedHandle:" + prepStmtHandle); return true; } } if (expectPrepStmtHandle || expectCursorOutParams) { TDSParser.parse(tdsReader, new PrepStmtExecOutParamHandler()); return true; } return false; } /** * Send the statement parameters by RPC */ void sendParamsByRPC(TDSWriter tdsWriter, Parameter[] params) throws SQLServerException { char cParamName[]; for (int index = 0; index < params.length; index++) { if (JDBCType.TVP == params[index].getJdbcType()) { cParamName = new char[10]; int paramNameLen = SQLServerConnection.makeParamName(index, cParamName, 0); tdsWriter.writeByte((byte) paramNameLen); tdsWriter.writeString(new String(cParamName, 0, paramNameLen)); } params[index].sendByRPC(tdsWriter, connection); } } private void buildServerCursorPrepExecParams(TDSWriter tdsWriter) throws SQLServerException { if (getStatementLogger().isLoggable(java.util.logging.Level.FINE)) getStatementLogger().fine(toString() + ": calling sp_cursorprepexec: PreparedHandle:" + getPreparedStatementHandle() + ", SQL:" + preparedSQL); expectPrepStmtHandle = true; executedSqlDirectly = false; expectCursorOutParams = true; outParamIndexAdjustment = 7; tdsWriter.writeShort((short) 0xFFFF); // procedure name length -> use ProcIDs tdsWriter.writeShort(TDS.PROCID_SP_CURSORPREPEXEC); tdsWriter.writeByte((byte) 0); // RPC procedure option 1 tdsWriter.writeByte((byte) 0); // RPC procedure option 2 // // IN (reprepare): Old handle to unprepare before repreparing // OUT: The newly prepared handle tdsWriter.writeRPCInt(null, getPreparedStatementHandle(), true); resetPrepStmtHandle(); // OUT tdsWriter.writeRPCInt(null, 0, true); // cursor ID (OUTPUT) // IN tdsWriter.writeRPCStringUnicode((preparedTypeDefinitions.length() > 0) ? preparedTypeDefinitions : null); // IN tdsWriter.writeRPCStringUnicode(preparedSQL); // IN // Note: we must strip out SCROLLOPT_PARAMETERIZED_STMT if we don't // actually have any parameters. tdsWriter.writeRPCInt(null, getResultSetScrollOpt() & ~((0 == preparedTypeDefinitions.length()) ? TDS.SCROLLOPT_PARAMETERIZED_STMT : 0), false); // IN tdsWriter.writeRPCInt(null, getResultSetCCOpt(), false); // OUT tdsWriter.writeRPCInt(null, 0, true); } private void buildPrepExecParams(TDSWriter tdsWriter) throws SQLServerException { if (getStatementLogger().isLoggable(java.util.logging.Level.FINE)) getStatementLogger().fine(toString() + ": calling sp_prepexec: PreparedHandle:" + getPreparedStatementHandle() + ", SQL:" + preparedSQL); expectPrepStmtHandle = true; executedSqlDirectly = true; expectCursorOutParams = false; outParamIndexAdjustment = 3; tdsWriter.writeShort((short) 0xFFFF); // procedure name length -> use ProcIDs tdsWriter.writeShort(TDS.PROCID_SP_PREPEXEC); tdsWriter.writeByte((byte) 0); // RPC procedure option 1 tdsWriter.writeByte((byte) 0); // RPC procedure option 2 // // IN (reprepare): Old handle to unprepare before repreparing // OUT: The newly prepared handle tdsWriter.writeRPCInt(null, getPreparedStatementHandle(), true); resetPrepStmtHandle(); // IN tdsWriter.writeRPCStringUnicode((preparedTypeDefinitions.length() > 0) ? preparedTypeDefinitions : null); // IN tdsWriter.writeRPCStringUnicode(preparedSQL); } private void buildExecSQLParams(TDSWriter tdsWriter) throws SQLServerException { if (getStatementLogger().isLoggable(java.util.logging.Level.FINE)) getStatementLogger().fine(toString() + ": calling sp_executesql: SQL:" + preparedSQL); expectPrepStmtHandle = false; executedSqlDirectly = true; expectCursorOutParams = false; outParamIndexAdjustment = 2; tdsWriter.writeShort((short) 0xFFFF); // procedure name length -> use ProcIDs tdsWriter.writeShort(TDS.PROCID_SP_EXECUTESQL); tdsWriter.writeByte((byte) 0); // RPC procedure option 1 tdsWriter.writeByte((byte) 0); // RPC procedure option 2 // No handle used. resetPrepStmtHandle(); // IN tdsWriter.writeRPCStringUnicode(preparedSQL); // IN if (preparedTypeDefinitions.length() > 0) tdsWriter.writeRPCStringUnicode(preparedTypeDefinitions); } private void buildServerCursorExecParams(TDSWriter tdsWriter) throws SQLServerException { if (getStatementLogger().isLoggable(java.util.logging.Level.FINE)) getStatementLogger().fine(toString() + ": calling sp_cursorexecute: PreparedHandle:" + getPreparedStatementHandle() + ", SQL:" + preparedSQL); expectPrepStmtHandle = false; executedSqlDirectly = false; expectCursorOutParams = true; outParamIndexAdjustment = 5; tdsWriter.writeShort((short) 0xFFFF); // procedure name length -> use ProcIDs tdsWriter.writeShort(TDS.PROCID_SP_CURSOREXECUTE); tdsWriter.writeByte((byte) 0); // RPC procedure option 1 tdsWriter.writeByte((byte) 0); // RPC procedure option 2 */ // IN assert hasPreparedStatementHandle(); tdsWriter.writeRPCInt(null, getPreparedStatementHandle(), false); // OUT tdsWriter.writeRPCInt(null, 0, true); // IN tdsWriter.writeRPCInt(null, getResultSetScrollOpt() & ~TDS.SCROLLOPT_PARAMETERIZED_STMT, false); // IN tdsWriter.writeRPCInt(null, getResultSetCCOpt(), false); // OUT tdsWriter.writeRPCInt(null, 0, true); } private void buildExecParams(TDSWriter tdsWriter) throws SQLServerException { if (getStatementLogger().isLoggable(java.util.logging.Level.FINE)) getStatementLogger().fine(toString() + ": calling sp_execute: PreparedHandle:" + getPreparedStatementHandle() + ", SQL:" + preparedSQL); expectPrepStmtHandle = false; executedSqlDirectly = true; expectCursorOutParams = false; outParamIndexAdjustment = 1; tdsWriter.writeShort((short) 0xFFFF); // procedure name length -> use ProcIDs tdsWriter.writeShort(TDS.PROCID_SP_EXECUTE); tdsWriter.writeByte((byte) 0); // RPC procedure option 1 tdsWriter.writeByte((byte) 0); // RPC procedure option 2 */ // IN assert hasPreparedStatementHandle(); tdsWriter.writeRPCInt(null, getPreparedStatementHandle(), false); } private void getParameterEncryptionMetadata(Parameter[] params) throws SQLServerException { /* * The parameter list is created from the data types provided by the user for the parameters. the data types do not need to be the same as in * the table definition. Also, when string is sent to an int field, the parameter is defined as nvarchar(). Same for varchar * datatypes, exact length is used. */ SQLServerResultSet rs = null; SQLServerCallableStatement stmt = null; assert connection != null : "Connection should not be null"; try { if (getStatementLogger().isLoggable(java.util.logging.Level.FINE)) { getStatementLogger().fine("Calling stored procedure sp_describe_parameter_encryption to get parameter encryption information."); } stmt = (SQLServerCallableStatement) connection.prepareCall("exec sp_describe_parameter_encryption ?,?"); stmt.isInternalEncryptionQuery = true; stmt.setNString(1, preparedSQL); stmt.setNString(2, preparedTypeDefinitions); rs = (SQLServerResultSet) stmt.executeQueryInternal(); } catch (SQLException e) { if (e instanceof SQLServerException) { throw (SQLServerException) e; } else { throw new SQLServerException(SQLServerException.getErrString("R_UnableRetrieveParameterMetadata"), null, 0, e); } } if (null == rs) { // No results. Meaning no parameter. // Should never happen. return; } Map cekList = new HashMap<>(); CekTableEntry cekEntry = null; try { while (rs.next()) { int currentOrdinal = rs.getInt(DescribeParameterEncryptionResultSet1.KeyOrdinal.value()); if (!cekList.containsKey(currentOrdinal)) { cekEntry = new CekTableEntry(currentOrdinal); cekList.put(cekEntry.ordinal, cekEntry); } else { cekEntry = cekList.get(currentOrdinal); } cekEntry.add(rs.getBytes(DescribeParameterEncryptionResultSet1.EncryptedKey.value()), rs.getInt(DescribeParameterEncryptionResultSet1.DbId.value()), rs.getInt(DescribeParameterEncryptionResultSet1.KeyId.value()), rs.getInt(DescribeParameterEncryptionResultSet1.KeyVersion.value()), rs.getBytes(DescribeParameterEncryptionResultSet1.KeyMdVersion.value()), rs.getString(DescribeParameterEncryptionResultSet1.KeyPath.value()), rs.getString(DescribeParameterEncryptionResultSet1.ProviderName.value()), rs.getString(DescribeParameterEncryptionResultSet1.KeyEncryptionAlgorithm.value())); } if (getStatementLogger().isLoggable(java.util.logging.Level.FINE)) { getStatementLogger().fine("Matadata of CEKs is retrieved."); } } catch (SQLException e) { if (e instanceof SQLServerException) { throw (SQLServerException) e; } else { throw new SQLServerException(SQLServerException.getErrString("R_UnableRetrieveParameterMetadata"), null, 0, e); } } // Process the second resultset. if (!stmt.getMoreResults()) { throw new SQLServerException(this, SQLServerException.getErrString("R_UnexpectedDescribeParamFormat"), null, 0, false); } // Parameter count in the result set. int paramCount = 0; try { rs = (SQLServerResultSet) stmt.getResultSet(); while (rs.next()) { paramCount++; String paramName = rs.getString(DescribeParameterEncryptionResultSet2.ParameterName.value()); int paramIndex = parameterNames.indexOf(paramName); int cekOrdinal = rs.getInt(DescribeParameterEncryptionResultSet2.ColumnEncryptionKeyOrdinal.value()); cekEntry = cekList.get(cekOrdinal); // cekEntry will be null if none of the parameters are encrypted. if ((null != cekEntry) && (cekList.size() < cekOrdinal)) { MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_InvalidEncryptionKeyOridnal")); Object[] msgArgs = {cekOrdinal, cekEntry.getSize()}; throw new SQLServerException(this, form.format(msgArgs), null, 0, false); } SQLServerEncryptionType encType = SQLServerEncryptionType .of((byte) rs.getInt(DescribeParameterEncryptionResultSet2.ColumnEncrytionType.value())); if (SQLServerEncryptionType.PlainText != encType) { params[paramIndex].cryptoMeta = new CryptoMetadata(cekEntry, (short) cekOrdinal, (byte) rs.getInt(DescribeParameterEncryptionResultSet2.ColumnEncryptionAlgorithm.value()), null, encType.value, (byte) rs.getInt(DescribeParameterEncryptionResultSet2.NormalizationRuleVersion.value())); // Decrypt the symmetric key.(This will also validate and throw if needed). SQLServerSecurityUtility.decryptSymmetricKey(params[paramIndex].cryptoMeta, connection); } else { if (true == params[paramIndex].getForceEncryption()) { MessageFormat form = new MessageFormat( SQLServerException.getErrString("R_ForceEncryptionTrue_HonorAETrue_UnencryptedColumn")); Object[] msgArgs = {userSQL, paramIndex + 1}; SQLServerException.makeFromDriverError(connection, this, form.format(msgArgs), null, true); } } } if (getStatementLogger().isLoggable(java.util.logging.Level.FINE)) { getStatementLogger().fine("Parameter encryption metadata is set."); } } catch (SQLException e) { if (e instanceof SQLServerException) { throw (SQLServerException) e; } else { throw new SQLServerException(SQLServerException.getErrString("R_UnableRetrieveParameterMetadata"), null, 0, e); } } if (paramCount != params.length) { // Encryption metadata wasn't sent by the server. // We expect the metadata to be sent for all the parameters in the original sp_describe_parameter_encryption. // For parameters that don't need encryption, the encryption type is set to plaintext. MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_MissingParamEncryptionMetadata")); Object[] msgArgs = {userSQL}; throw new SQLServerException(this, form.format(msgArgs), null, 0, false); } // Null check for rs is done already. rs.close(); if (null != stmt) { stmt.close(); } connection.resetCurrentCommand(); } /** Manage re-using cached handles */ private boolean reuseCachedHandle(boolean hasNewTypeDefinitions, boolean discardCurrentCacheItem) { if (definitionChanged || connection.contextChanged) { prepStmtHandle = -1; // so that hasPreparedStatementHandle() also returns false if (connection.contextChanged) { connection.contextChanged = false; connection.contextIsAlreadyChanged = false; connection.clearCachedPreparedStatementHandle(); } return false; } // No re-use of caching for cursorable statements (statements that WILL use sp_cursor*) if (isCursorable(executeMethod)) return false; // If current cache item should be discarded make sure it is not used again. if (discardCurrentCacheItem && null != cachedPreparedStatementHandle) { cachedPreparedStatementHandle.removeReference(); // Make sure the cached handle does not get re-used more. resetPrepStmtHandle(); cachedPreparedStatementHandle.setIsExplicitlyDiscarded(); cachedPreparedStatementHandle = null; return false; } // New type definitions and existing cached handle reference then deregister cached handle. if(hasNewTypeDefinitions) { if (null != cachedPreparedStatementHandle && hasPreparedStatementHandle() && prepStmtHandle == cachedPreparedStatementHandle.getHandle()) { cachedPreparedStatementHandle.removeReference(); cachedPreparedStatementHandle.setIsExplicitlyDiscarded(); } cachedPreparedStatementHandle = null; } // Check for new cache reference. if (null == cachedPreparedStatementHandle) { PreparedStatementHandle cachedHandle = connection.getCachedPreparedStatementHandle(new Sha1HashKey(preparedSQL, preparedTypeDefinitions)); // If handle was found then re-use, only if AE is not on and is not a batch query with new type definitions (We shouldn't reuse handle // if it is batch query and has new type definition, or if it is on, make sure encryptionMetadataIsRetrieved is retrieved. if (null != cachedHandle) { if (!connection.isColumnEncryptionSettingEnabled() || (connection.isColumnEncryptionSettingEnabled() && encryptionMetadataIsRetrieved)) { if (cachedHandle.tryAddReference()) { setPreparedStatementHandle(cachedHandle.getHandle()); cachedPreparedStatementHandle = cachedHandle; return true; } } } } return false; } private boolean doPrepExec(TDSWriter tdsWriter, Parameter[] params, boolean hasNewTypeDefinitions, boolean hasExistingTypeDefinitions) throws SQLServerException { boolean needsPrepare = (hasNewTypeDefinitions && hasExistingTypeDefinitions) || !hasPreparedStatementHandle(); // Cursors don't use statement pooling. if (isCursorable(executeMethod)) { if (needsPrepare) buildServerCursorPrepExecParams(tdsWriter); else buildServerCursorExecParams(tdsWriter); } else { // Move overhead of needing to do prepare & unprepare to only use cases that need more than one execution. // First execution, use sp_executesql, optimizing for asumption we will not re-use statement. if (needsPrepare && !connection.getEnablePrepareOnFirstPreparedStatementCall() && !isExecutedAtLeastOnce ) { buildExecSQLParams(tdsWriter); isExecutedAtLeastOnce = true; } // Second execution, use prepared statements since we seem to be re-using it. else if(needsPrepare) buildPrepExecParams(tdsWriter); else buildExecParams(tdsWriter); } sendParamsByRPC(tdsWriter, params); return needsPrepare; } /* L0 */ public final java.sql.ResultSetMetaData getMetaData() throws SQLServerException { loggerExternal.entering(getClassNameLogging(), "getMetaData"); checkClosed(); boolean rsclosed = false; java.sql.ResultSetMetaData rsmd = null; try { // if the result is closed, cant get the metadata from it. if (resultSet != null) resultSet.checkClosed(); } catch (SQLServerException e) { rsclosed = true; } if (resultSet == null || rsclosed) { SQLServerResultSet emptyResultSet = (SQLServerResultSet) buildExecuteMetaData(); if (null != emptyResultSet) rsmd = emptyResultSet.getMetaData(); } else if (resultSet != null) { rsmd = resultSet.getMetaData(); } loggerExternal.exiting(getClassNameLogging(), "getMetaData", rsmd); return rsmd; } /** * Retreive meta data for the statement before executing it. This is called in cases where the driver needs the meta data prior to executing the * statement. * * @throws SQLServerException * @return the result set containing the meta data */ /* L0 */ private ResultSet buildExecuteMetaData() throws SQLServerException { String fmtSQL = userSQL; ResultSet emptyResultSet = null; try { fmtSQL = replaceMarkerWithNull(fmtSQL); internalStmt = (SQLServerStatement) connection.createStatement(); emptyResultSet = internalStmt.executeQueryInternal("set fmtonly on " + fmtSQL + "\nset fmtonly off"); } catch (SQLException sqle) { if (false == sqle.getMessage().equals(SQLServerException.getErrString("R_noResultset"))) { // if the error is not no resultset then throw a processings error. MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_processingError")); Object[] msgArgs = {sqle.getMessage()}; SQLServerException.makeFromDriverError(connection, this, form.format(msgArgs), null, true); } } return emptyResultSet; } /* -------------- JDBC API Implementation ------------------ */ /** * Set the parameter value for a statement. * * @param index * The index of the parameter to set starting at 1. * @return A reference the to Parameter object created or referenced. * @exception SQLServerException * The index specified was outside the number of paramters for the statement. */ /* L0 */ final Parameter setterGetParam(int index) throws SQLServerException { if (index < 1 || index > inOutParam.length) { MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_indexOutOfRange")); Object[] msgArgs = {index}; SQLServerException.makeFromDriverError(connection, this, form.format(msgArgs), "07009", false); } return inOutParam[index - 1]; } final void setValue(int parameterIndex, JDBCType jdbcType, Object value, JavaType javaType, String tvpName) throws SQLServerException { setterGetParam(parameterIndex).setValue(jdbcType, value, javaType, null, null, null, null, connection, false, stmtColumnEncriptionSetting, parameterIndex, userSQL, tvpName); } final void setValue(int parameterIndex, JDBCType jdbcType, Object value, JavaType javaType, boolean forceEncrypt) throws SQLServerException { setterGetParam(parameterIndex).setValue(jdbcType, value, javaType, null, null, null, null, connection, forceEncrypt, stmtColumnEncriptionSetting, parameterIndex, userSQL, null); } final void setValue(int parameterIndex, JDBCType jdbcType, Object value, JavaType javaType, Integer precision, Integer scale, boolean forceEncrypt) throws SQLServerException { setterGetParam(parameterIndex).setValue(jdbcType, value, javaType, null, null, precision, scale, connection, forceEncrypt, stmtColumnEncriptionSetting, parameterIndex, userSQL, null); } final void setValue(int parameterIndex, JDBCType jdbcType, Object value, JavaType javaType, Calendar cal, boolean forceEncrypt) throws SQLServerException { setterGetParam(parameterIndex).setValue(jdbcType, value, javaType, null, cal, null, null, connection, forceEncrypt, stmtColumnEncriptionSetting, parameterIndex, userSQL, null); } final void setStream(int parameterIndex, StreamType streamType, Object streamValue, JavaType javaType, long length) throws SQLServerException { setterGetParam(parameterIndex).setValue(streamType.getJDBCType(), streamValue, javaType, new StreamSetterArgs(streamType, length), null, null, null, connection, false, stmtColumnEncriptionSetting, parameterIndex, userSQL, null); } final void setSQLXMLInternal(int parameterIndex, SQLXML value) throws SQLServerException { setterGetParam(parameterIndex).setValue(JDBCType.SQLXML, value, JavaType.SQLXML, new StreamSetterArgs(StreamType.SQLXML, DataTypes.UNKNOWN_STREAM_LENGTH), null, null, null, connection, false, stmtColumnEncriptionSetting, parameterIndex, userSQL, null); } public final void setAsciiStream(int parameterIndex, InputStream x) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setAsciiStream", new Object[] {parameterIndex, x}); checkClosed(); setStream(parameterIndex, StreamType.ASCII, x, JavaType.INPUTSTREAM, DataTypes.UNKNOWN_STREAM_LENGTH); loggerExternal.exiting(getClassNameLogging(), "setAsciiStream"); } public final void setAsciiStream(int n, java.io.InputStream x, int length) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setAsciiStream", new Object[] {n, x, length}); checkClosed(); setStream(n, StreamType.ASCII, x, JavaType.INPUTSTREAM, length); loggerExternal.exiting(getClassNameLogging(), "setAsciiStream"); } public final void setAsciiStream(int parameterIndex, InputStream x, long length) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setAsciiStream", new Object[] {parameterIndex, x, length}); checkClosed(); setStream(parameterIndex, StreamType.ASCII, x, JavaType.INPUTSTREAM, length); loggerExternal.exiting(getClassNameLogging(), "setAsciiStream"); } private Parameter getParam(int index) throws SQLServerException { index--; if (index < 0 || index >= inOutParam.length) { MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_indexOutOfRange")); Object[] msgArgs = {index + 1}; SQLServerException.makeFromDriverError(connection, this, form.format(msgArgs), "07009", false); } return inOutParam[index]; } public final void setBigDecimal(int n, BigDecimal x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBigDecimal", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.DECIMAL, x, JavaType.BIGDECIMAL, false); loggerExternal.exiting(getClassNameLogging(), "setBigDecimal"); } /** * Sets the designated parameter to the given java.math.BigDecimal value. The driver converts this to an SQL NUMERIC * value when it sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param precision * the precision of the column * @param scale * the scale of the column * @throws SQLServerException * when an error occurs */ public final void setBigDecimal(int n, BigDecimal x, int precision, int scale) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBigDecimal", new Object[] {n, x, precision, scale}); checkClosed(); setValue(n, JDBCType.DECIMAL, x, JavaType.BIGDECIMAL, precision, scale, false); loggerExternal.exiting(getClassNameLogging(), "setBigDecimal"); } /** * Sets the designated parameter to the given java.math.BigDecimal value. The driver converts this to an SQL NUMERIC * value when it sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param precision * the precision of the column * @param scale * the scale of the column * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setBigDecimal(int n, BigDecimal x, int precision, int scale, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBigDecimal", new Object[] {n, x, precision, scale, forceEncrypt}); checkClosed(); setValue(n, JDBCType.DECIMAL, x, JavaType.BIGDECIMAL, precision, scale, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setBigDecimal"); } /** * Sets the designated parameter to the given java.math.BigDecimal value. The driver converts this to an SQL NUMERIC * value when it sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @throws SQLServerException * when an error occurs */ public final void setMoney(int n, BigDecimal x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setMoney", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.MONEY, x, JavaType.BIGDECIMAL, false); loggerExternal.exiting(getClassNameLogging(), "setMoney"); } /** * Sets the designated parameter to the given java.math.BigDecimal value. The driver converts this to an SQL NUMERIC * value when it sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setMoney(int n, BigDecimal x, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setMoney", new Object[] {n, x, forceEncrypt}); checkClosed(); setValue(n, JDBCType.MONEY, x, JavaType.BIGDECIMAL, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setMoney"); } /** * Sets the designated parameter to the given java.math.BigDecimal value. The driver converts this to an SQL NUMERIC * value when it sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @throws SQLServerException * when an error occurs */ public final void setSmallMoney(int n, BigDecimal x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setSmallMoney", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.SMALLMONEY, x, JavaType.BIGDECIMAL, false); loggerExternal.exiting(getClassNameLogging(), "setSmallMoney"); } /** * Sets the designated parameter to the given java.math.BigDecimal value. The driver converts this to an SQL NUMERIC * value when it sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setSmallMoney(int n, BigDecimal x, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setSmallMoney", new Object[] {n, x, forceEncrypt}); checkClosed(); setValue(n, JDBCType.SMALLMONEY, x, JavaType.BIGDECIMAL, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setSmallMoney"); } public final void setBinaryStream(int parameterIndex, InputStream x) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBinaryStreaml", new Object[] {parameterIndex, x}); checkClosed(); setStream(parameterIndex, StreamType.BINARY, x, JavaType.INPUTSTREAM, DataTypes.UNKNOWN_STREAM_LENGTH); loggerExternal.exiting(getClassNameLogging(), "setBinaryStream"); } public final void setBinaryStream(int n, java.io.InputStream x, int length) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBinaryStream", new Object[] {n, x, length}); checkClosed(); setStream(n, StreamType.BINARY, x, JavaType.INPUTSTREAM, length); loggerExternal.exiting(getClassNameLogging(), "setBinaryStream"); } public final void setBinaryStream(int parameterIndex, InputStream x, long length) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBinaryStream", new Object[] {parameterIndex, x, length}); checkClosed(); setStream(parameterIndex, StreamType.BINARY, x, JavaType.INPUTSTREAM, length); loggerExternal.exiting(getClassNameLogging(), "setBinaryStream"); } public final void setBoolean(int n, boolean x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBoolean", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.BIT, x, JavaType.BOOLEAN, false); loggerExternal.exiting(getClassNameLogging(), "setBoolean"); } /** * Sets the designated parameter to the given Java boolean value. The driver converts this to an SQL BIT or * BOOLEAN value when it sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setBoolean(int n, boolean x, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBoolean", new Object[] {n, x, forceEncrypt}); checkClosed(); setValue(n, JDBCType.BIT, x, JavaType.BOOLEAN, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setBoolean"); } public final void setByte(int n, byte x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setByte", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.TINYINT, x, JavaType.BYTE, false); loggerExternal.exiting(getClassNameLogging(), "setByte"); } /** * Sets the designated parameter to the given Java byte value. The driver converts this to an SQL TINYINT value when it * sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setByte(int n, byte x, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setByte", new Object[] {n, x, forceEncrypt}); checkClosed(); setValue(n, JDBCType.TINYINT, x, JavaType.BYTE, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setByte"); } public final void setBytes(int n, byte x[]) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBytes", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.BINARY, x, JavaType.BYTEARRAY, false); loggerExternal.exiting(getClassNameLogging(), "setBytes"); } /** * Sets the designated parameter to the given Java array of bytes. The driver converts this to an SQL VARBINARY or * LONGVARBINARY (depending on the argument's size relative to the driver's limits on VARBINARY values) when it sends it * to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setBytes(int n, byte x[], boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBytes", new Object[] {n, x, forceEncrypt}); checkClosed(); setValue(n, JDBCType.BINARY, x, JavaType.BYTEARRAY, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setBytes"); } /** * Sets the designated parameter to the given String. The driver converts this to an SQL GUID * * @param index * the first parameter is 1, the second is 2, ... * @param guid * string representation of the uniqueIdentifier value * @throws SQLServerException * when an error occurs */ public final void setUniqueIdentifier(int index, String guid) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setUniqueIdentifier", new Object[] {index, guid}); checkClosed(); setValue(index, JDBCType.GUID, guid, JavaType.STRING, false); loggerExternal.exiting(getClassNameLogging(), "setUniqueIdentifier"); } /** * Sets the designated parameter to the given String. The driver converts this to an SQL GUID * * @param index * the first parameter is 1, the second is 2, ... * @param guid * string representation of the uniqueIdentifier value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setUniqueIdentifier(int index, String guid, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setUniqueIdentifier", new Object[] {index, guid, forceEncrypt}); checkClosed(); setValue(index, JDBCType.GUID, guid, JavaType.STRING, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setUniqueIdentifier"); } public final void setDouble(int n, double x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setDouble", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.DOUBLE, x, JavaType.DOUBLE, false); loggerExternal.exiting(getClassNameLogging(), "setDouble"); } /** * Sets the designated parameter to the given Java double value. The driver converts this to an SQL DOUBLE value when it * sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setDouble(int n, double x, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setDouble", new Object[] {n, x, forceEncrypt}); checkClosed(); setValue(n, JDBCType.DOUBLE, x, JavaType.DOUBLE, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setDouble"); } public final void setFloat(int n, float x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setFloat", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.REAL, x, JavaType.FLOAT, false); loggerExternal.exiting(getClassNameLogging(), "setFloat"); } /** * Sets the designated parameter to the given Java float value. The driver converts this to an SQL REAL value when it * sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setFloat(int n, float x, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setFloat", new Object[] {n, x, forceEncrypt}); checkClosed(); setValue(n, JDBCType.REAL, x, JavaType.FLOAT, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setFloat"); } public final void setInt(int n, int value) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setInt", new Object[] {n, value}); checkClosed(); setValue(n, JDBCType.INTEGER, value, JavaType.INTEGER, false); loggerExternal.exiting(getClassNameLogging(), "setInt"); } /** * Sets the designated parameter to the given Java int value. The driver converts this to an SQL INTEGER value when it * sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param value * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setInt(int n, int value, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setInt", new Object[] {n, value, forceEncrypt}); checkClosed(); setValue(n, JDBCType.INTEGER, value, JavaType.INTEGER, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setInt"); } public final void setLong(int n, long x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setLong", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.BIGINT, x, JavaType.LONG, false); loggerExternal.exiting(getClassNameLogging(), "setLong"); } /** * Sets the designated parameter to the given Java long value. The driver converts this to an SQL BIGINT value when it * sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setLong(int n, long x, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setLong", new Object[] {n, x, forceEncrypt}); checkClosed(); setValue(n, JDBCType.BIGINT, x, JavaType.LONG, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setLong"); } public final void setNull(int index, int jdbcType) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setNull", new Object[] {index, jdbcType}); checkClosed(); setObject(setterGetParam(index), null, JavaType.OBJECT, JDBCType.of(jdbcType), null, null, false, index, null); loggerExternal.exiting(getClassNameLogging(), "setNull"); } final void setObjectNoType(int index, Object obj, boolean forceEncrypt) throws SQLServerException { // Default to the JDBC type of the parameter, determined by a previous setter call or through registerOutParam. // This avoids repreparing unnecessarily for null values. Parameter param = setterGetParam(index); JDBCType targetJDBCType = param.getJdbcType(); String tvpName = null; if (null == obj) { // If the JDBC type of the parameter is UNKNOWN (i.e. this is the first time the parameter is being set), // then use a JDBC type the converts to most server types with a null value. if (JDBCType.UNKNOWN == targetJDBCType) targetJDBCType = JDBCType.CHAR; setObject(param, null, JavaType.OBJECT, targetJDBCType, null, null, forceEncrypt, index, null); } else { JavaType javaType = JavaType.of(obj); if (JavaType.TVP == javaType) { tvpName = getTVPNameIfNull(index, null); // will return null if called from preparedStatement if ((null == tvpName) && (obj instanceof ResultSet)) { throw new SQLServerException(SQLServerException.getErrString("R_TVPnotWorkWithSetObjectResultSet"), null); } } targetJDBCType = javaType.getJDBCType(SSType.UNKNOWN, targetJDBCType); if (JDBCType.UNKNOWN == targetJDBCType) { if (obj instanceof java.util.UUID) { javaType = JavaType.STRING; targetJDBCType = JDBCType.GUID; } } setObject(param, obj, javaType, targetJDBCType, null, null, forceEncrypt, index, tvpName); } } public final void setObject(int index, Object obj) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setObject", new Object[] {index, obj}); checkClosed(); setObjectNoType(index, obj, false); loggerExternal.exiting(getClassNameLogging(), "setObject"); } public final void setObject(int n, Object obj, int jdbcType) throws SQLServerException { String tvpName = null; if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setObject", new Object[] {n, obj, jdbcType}); checkClosed(); if (microsoft.sql.Types.STRUCTURED == jdbcType) tvpName = getTVPNameIfNull(n, null); setObject(setterGetParam(n), obj, JavaType.of(obj), JDBCType.of(jdbcType), null, null, false, n, tvpName); loggerExternal.exiting(getClassNameLogging(), "setObject"); } public final void setObject(int parameterIndex, Object x, int targetSqlType, int scaleOrLength) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setObject", new Object[] {parameterIndex, x, targetSqlType, scaleOrLength}); checkClosed(); // scaleOrLength - for java.sql.Types.DECIMAL, java.sql.Types.NUMERIC or temporal types, // this is the number of digits after the decimal point. For Java Object types // InputStream and Reader, this is the length of the data in the stream or reader. // For all other types, this value will be ignored. setObject(setterGetParam(parameterIndex), x, JavaType.of(x), JDBCType.of(targetSqlType), (java.sql.Types.NUMERIC == targetSqlType || java.sql.Types.DECIMAL == targetSqlType || java.sql.Types.TIMESTAMP == targetSqlType || java.sql.Types.TIME == targetSqlType || microsoft.sql.Types.DATETIMEOFFSET == targetSqlType || InputStream.class.isInstance(x) || Reader.class.isInstance(x)) ? scaleOrLength : null, null, false, parameterIndex, null); loggerExternal.exiting(getClassNameLogging(), "setObject"); } /** *

* Sets the value of the designated parameter with the given object. * *

* The given Java object will be converted to the given targetSqlType before being sent to the database. * * If the object has a custom mapping (is of a class implementing the interface SQLData), the JDBC driver should call the method * SQLData.writeSQL to write it to the SQL data stream. If, on the other hand, the object is of a class implementing * Ref, Blob, Clob, NClob, Struct, java.net.URL, or * Array, the driver should pass it to the database as a value of the corresponding SQL type. * *

* Note that this method may be used to pass database-specific abstract data types. * * @param parameterIndex * the first parameter is 1, the second is 2, ... * @param x * the object containing the input parameter value * @param targetSqlType * the SQL type (as defined in java.sql.Types) to be sent to the database. The scale argument may further qualify this type. * @param precision * the precision of the column * @param scale * scale of the column * @throws SQLServerException * when an error occurs */ public final void setObject(int parameterIndex, Object x, int targetSqlType, Integer precision, int scale) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setObject", new Object[] {parameterIndex, x, targetSqlType, precision, scale}); checkClosed(); // scale - for java.sql.Types.DECIMAL or java.sql.Types.NUMERIC types, // this is the number of digits after the decimal point. For Java Object types // InputStream and Reader, this is the length of the data in the stream or reader. // For all other types, this value will be ignored. setObject(setterGetParam(parameterIndex), x, JavaType.of(x), JDBCType.of(targetSqlType), (java.sql.Types.NUMERIC == targetSqlType || java.sql.Types.DECIMAL == targetSqlType || InputStream.class.isInstance(x) || Reader.class.isInstance(x)) ? scale : null, precision, false, parameterIndex, null); loggerExternal.exiting(getClassNameLogging(), "setObject"); } /** *

* Sets the value of the designated parameter with the given object. * *

* The given Java object will be converted to the given targetSqlType before being sent to the database. * * If the object has a custom mapping (is of a class implementing the interface SQLData), the JDBC driver should call the method * SQLData.writeSQL to write it to the SQL data stream. If, on the other hand, the object is of a class implementing * Ref, Blob, Clob, NClob, Struct, java.net.URL, or * Array, the driver should pass it to the database as a value of the corresponding SQL type. * *

* Note that this method may be used to pass database-specific abstract data types. * * @param parameterIndex * the first parameter is 1, the second is 2, ... * @param x * the object containing the input parameter value * @param targetSqlType * the SQL type (as defined in java.sql.Types) to be sent to the database. The scale argument may further qualify this type. * @param precision * the precision of the column * @param scale * scale of the column * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setObject(int parameterIndex, Object x, int targetSqlType, Integer precision, int scale, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setObject", new Object[] {parameterIndex, x, targetSqlType, precision, scale, forceEncrypt}); checkClosed(); // scale - for java.sql.Types.DECIMAL or java.sql.Types.NUMERIC types, // this is the number of digits after the decimal point. For Java Object types // InputStream and Reader, this is the length of the data in the stream or reader. // For all other types, this value will be ignored. setObject(setterGetParam(parameterIndex), x, JavaType.of(x), JDBCType.of(targetSqlType), (java.sql.Types.NUMERIC == targetSqlType || java.sql.Types.DECIMAL == targetSqlType || InputStream.class.isInstance(x) || Reader.class.isInstance(x)) ? scale : null, precision, forceEncrypt, parameterIndex, null); loggerExternal.exiting(getClassNameLogging(), "setObject"); } final void setObject(Parameter param, Object obj, JavaType javaType, JDBCType jdbcType, Integer scale, Integer precision, boolean forceEncrypt, int parameterIndex, String tvpName) throws SQLServerException { assert JDBCType.UNKNOWN != jdbcType; // For non-null values, infer the object's JDBC type from its Java type // and check whether the object is settable via the specified JDBC type. if ((null != obj) || (JavaType.TVP == javaType)) { // Returns the static JDBC type that is assigned to this java type (the parameters has no effect) JDBCType objectJDBCType = javaType.getJDBCType(SSType.UNKNOWN, jdbcType); // Check convertability of the value to the desired JDBC type. if (!objectJDBCType.convertsTo(jdbcType)) DataTypes.throwConversionError(objectJDBCType.toString(), jdbcType.toString()); StreamSetterArgs streamSetterArgs = null; switch (javaType) { case READER: streamSetterArgs = new StreamSetterArgs(StreamType.CHARACTER, DataTypes.UNKNOWN_STREAM_LENGTH); break; case INPUTSTREAM: streamSetterArgs = new StreamSetterArgs(jdbcType.isTextual() ? StreamType.CHARACTER : StreamType.BINARY, DataTypes.UNKNOWN_STREAM_LENGTH); break; case SQLXML: streamSetterArgs = new StreamSetterArgs(StreamType.SQLXML, DataTypes.UNKNOWN_STREAM_LENGTH); break; default: // Do nothing break; } // typeInfo is set as null param.setValue(jdbcType, obj, javaType, streamSetterArgs, null, precision, scale, connection, forceEncrypt, stmtColumnEncriptionSetting, parameterIndex, userSQL, tvpName); } // For null values, use the specified JDBC type directly, with the exception // of unsupported JDBC types, which are mapped to BINARY so that they are minimally supported. else { assert JavaType.OBJECT == javaType; if (jdbcType.isUnsupported()) jdbcType = JDBCType.BINARY; // typeInfo is set as null param.setValue(jdbcType, null, JavaType.OBJECT, null, null, precision, scale, connection, false, stmtColumnEncriptionSetting, parameterIndex, userSQL, tvpName); } } public final void setShort(int index, short x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setShort", new Object[] {index, x}); checkClosed(); setValue(index, JDBCType.SMALLINT, x, JavaType.SHORT, false); loggerExternal.exiting(getClassNameLogging(), "setShort"); } /** * Sets the designated parameter to the given Java short value. The driver converts this to an SQL SMALLINT value when * it sends it to the database. * * @param index * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setShort(int index, short x, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setShort", new Object[] {index, x, forceEncrypt}); checkClosed(); setValue(index, JDBCType.SMALLINT, x, JavaType.SHORT, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setShort"); } public final void setString(int index, String str) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setString", new Object[] {index, str}); checkClosed(); setValue(index, JDBCType.VARCHAR, str, JavaType.STRING, false); loggerExternal.exiting(getClassNameLogging(), "setString"); } /** * Sets the designated parameter to the given Java String value. The driver converts this to an SQL VARCHAR or * LONGVARCHAR value (depending on the argument's size relative to the driver's limits on VARCHAR values) when it sends * it to the database. * * @param index * the first parameter is 1, the second is 2, ... * @param str * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setString(int index, String str, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setString", new Object[] {index, str, forceEncrypt}); checkClosed(); setValue(index, JDBCType.VARCHAR, str, JavaType.STRING, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setString"); } public final void setNString(int parameterIndex, String value) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setNString", new Object[] {parameterIndex, value}); checkClosed(); setValue(parameterIndex, JDBCType.NVARCHAR, value, JavaType.STRING, false); loggerExternal.exiting(getClassNameLogging(), "setNString"); } /** * Sets the designated parameter to the given String object. The driver converts this to a SQL NCHAR or * NVARCHAR or LONGNVARCHAR value (depending on the argument's size relative to the driver's limits on * NVARCHAR values) when it sends it to the database. * * @param parameterIndex * of the first parameter is 1, the second is 2, ... * @param value * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLException * when an error occurs */ public final void setNString(int parameterIndex, String value, boolean forceEncrypt) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setNString", new Object[] {parameterIndex, value, forceEncrypt}); checkClosed(); setValue(parameterIndex, JDBCType.NVARCHAR, value, JavaType.STRING, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setNString"); } public final void setTime(int n, java.sql.Time x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setTime", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.TIME, x, JavaType.TIME, false); loggerExternal.exiting(getClassNameLogging(), "setTime"); } /** * Sets the designated parameter to the given java.sql.Time value * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param scale * the scale of the column * @throws SQLServerException * when an error occurs */ public final void setTime(int n, java.sql.Time x, int scale) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setTime", new Object[] {n, x, scale}); checkClosed(); setValue(n, JDBCType.TIME, x, JavaType.TIME, null, scale, false); loggerExternal.exiting(getClassNameLogging(), "setTime"); } /** * Sets the designated parameter to the given java.sql.Time value * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param scale * the scale of the column * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setTime(int n, java.sql.Time x, int scale, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setTime", new Object[] {n, x, scale, forceEncrypt}); checkClosed(); setValue(n, JDBCType.TIME, x, JavaType.TIME, null, scale, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setTime"); } public final void setTimestamp(int n, java.sql.Timestamp x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setTimestamp", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.TIMESTAMP, x, JavaType.TIMESTAMP, false); loggerExternal.exiting(getClassNameLogging(), "setTimestamp"); } /** * Sets the designated parameter to the given java.sql.Timestamp value * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param scale * the scale of the column * @throws SQLServerException * when an error occurs */ public final void setTimestamp(int n, java.sql.Timestamp x, int scale) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setTimestamp", new Object[] {n, x, scale}); checkClosed(); setValue(n, JDBCType.TIMESTAMP, x, JavaType.TIMESTAMP, null, scale, false); loggerExternal.exiting(getClassNameLogging(), "setTimestamp"); } /** * Sets the designated parameter to the given java.sql.Timestamp value * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param scale * the scale of the column * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setTimestamp(int n, java.sql.Timestamp x, int scale, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setTimestamp", new Object[] {n, x, scale, forceEncrypt}); checkClosed(); setValue(n, JDBCType.TIMESTAMP, x, JavaType.TIMESTAMP, null, scale, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setTimestamp"); } /** * Sets the designated parameter to the given microsoft.sql.DatetimeOffset value * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @throws SQLException * if an error occurs. */ public final void setDateTimeOffset(int n, microsoft.sql.DateTimeOffset x) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setDateTimeOffset", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.DATETIMEOFFSET, x, JavaType.DATETIMEOFFSET, false); loggerExternal.exiting(getClassNameLogging(), "setDateTimeOffset"); } /** * Sets the designated parameter to the given microsoft.sql.DatetimeOffset value * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param scale * the scale of the column * @throws SQLException * when an error occurs */ public final void setDateTimeOffset(int n, microsoft.sql.DateTimeOffset x, int scale) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setDateTimeOffset", new Object[] {n, x, scale}); checkClosed(); setValue(n, JDBCType.DATETIMEOFFSET, x, JavaType.DATETIMEOFFSET, null, scale, false); loggerExternal.exiting(getClassNameLogging(), "setDateTimeOffset"); } /** * Sets the designated parameter to the given microsoft.sql.DatetimeOffset value * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param scale * the scale of the column * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLException * when an error occurs */ public final void setDateTimeOffset(int n, microsoft.sql.DateTimeOffset x, int scale, boolean forceEncrypt) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setDateTimeOffset", new Object[] {n, x, scale, forceEncrypt}); checkClosed(); setValue(n, JDBCType.DATETIMEOFFSET, x, JavaType.DATETIMEOFFSET, null, scale, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setDateTimeOffset"); } public final void setDate(int n, java.sql.Date x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setDate", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.DATE, x, JavaType.DATE, false); loggerExternal.exiting(getClassNameLogging(), "setDate"); } /** * Sets the designated parameter to the given java.sql.Timestamp value * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @throws SQLServerException * when an error occurs */ public final void setDateTime(int n, java.sql.Timestamp x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setDateTime", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.DATETIME, x, JavaType.TIMESTAMP, false); loggerExternal.exiting(getClassNameLogging(), "setDateTime"); } /** * Sets the designated parameter to the given java.sql.Timestamp value * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setDateTime(int n, java.sql.Timestamp x, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setDateTime", new Object[] {n, x, forceEncrypt}); checkClosed(); setValue(n, JDBCType.DATETIME, x, JavaType.TIMESTAMP, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setDateTime"); } /** * Sets the designated parameter to the given java.sql.Timestamp value * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @throws SQLServerException * when an error occurs */ public final void setSmallDateTime(int n, java.sql.Timestamp x) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setSmallDateTime", new Object[] {n, x}); checkClosed(); setValue(n, JDBCType.SMALLDATETIME, x, JavaType.TIMESTAMP, false); loggerExternal.exiting(getClassNameLogging(), "setSmallDateTime"); } /** * Sets the designated parameter to the given java.sql.Timestamp value * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setSmallDateTime(int n, java.sql.Timestamp x, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setSmallDateTime", new Object[] {n, x, forceEncrypt}); checkClosed(); setValue(n, JDBCType.SMALLDATETIME, x, JavaType.TIMESTAMP, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setSmallDateTime"); } /** * Populates a table valued parameter with a data table * * @param n * the first parameter is 1, the second is 2, ... * @param tvpName * the name of the table valued parameter * @param tvpDataTable * the source datatable object * @throws SQLServerException * when an error occurs */ public final void setStructured(int n, String tvpName, SQLServerDataTable tvpDataTable) throws SQLServerException { tvpName = getTVPNameIfNull(n, tvpName); if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setStructured", new Object[] {n, tvpName, tvpDataTable}); checkClosed(); setValue(n, JDBCType.TVP, tvpDataTable, JavaType.TVP, tvpName); loggerExternal.exiting(getClassNameLogging(), "setStructured"); } /** * Populates a table valued parameter with a data table * * @param n * the first parameter is 1, the second is 2, ... * @param tvpName * the name of the table valued parameter * @param tvpResultSet * the source resultset object * @throws SQLServerException * when an error occurs */ public final void setStructured(int n, String tvpName, ResultSet tvpResultSet) throws SQLServerException { tvpName = getTVPNameIfNull(n, tvpName); if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setStructured", new Object[] {n, tvpName, tvpResultSet}); checkClosed(); setValue(n, JDBCType.TVP, tvpResultSet, JavaType.TVP, tvpName); loggerExternal.exiting(getClassNameLogging(), "setStructured"); } /** * Populates a table valued parameter with a data table * * @param n * the first parameter is 1, the second is 2, ... * @param tvpName * the name of the table valued parameter * @param tvpBulkRecord * an ISQLServerDataRecord object * @throws SQLServerException * when an error occurs */ public final void setStructured(int n, String tvpName, ISQLServerDataRecord tvpBulkRecord) throws SQLServerException { tvpName = getTVPNameIfNull(n, tvpName); if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setStructured", new Object[] {n, tvpName, tvpBulkRecord}); checkClosed(); setValue(n, JDBCType.TVP, tvpBulkRecord, JavaType.TVP, tvpName); loggerExternal.exiting(getClassNameLogging(), "setStructured"); } String getTVPNameIfNull(int n, String tvpName) throws SQLServerException { if ((null == tvpName) || (0 == tvpName.length())) { // Check if the CallableStatement/PreparedStatement is a stored procedure call if(null != this.procedureName) { SQLServerParameterMetaData pmd = (SQLServerParameterMetaData) this.getParameterMetaData(); pmd.isTVP = true; if (!pmd.procedureIsFound) { MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_StoredProcedureNotFound")); Object[] msgArgs = {this.procedureName}; SQLServerException.makeFromDriverError(connection, pmd, form.format(msgArgs), null, false); } try { String tvpNameWithoutSchema = pmd.getParameterTypeName(n); String tvpSchema = pmd.getTVPSchemaFromStoredProcedure(n); if (null != tvpSchema) { tvpName = "[" + tvpSchema + "].[" + tvpNameWithoutSchema + "]"; } else { tvpName = tvpNameWithoutSchema; } } catch (SQLException e) { throw new SQLServerException(SQLServerException.getErrString("R_metaDataErrorForParameter"), null, 0, e); } } } return tvpName; } @Deprecated public final void setUnicodeStream(int n, java.io.InputStream x, int length) throws SQLException { NotImplemented(); } public final void addBatch() throws SQLServerException { loggerExternal.entering(getClassNameLogging(), "addBatch"); checkClosed(); // Create the list of batch parameter values first time through if (batchParamValues == null) batchParamValues = new ArrayList<>(); final int numParams = inOutParam.length; Parameter paramValues[] = new Parameter[numParams]; for (int i = 0; i < numParams; i++) paramValues[i] = inOutParam[i].cloneForBatch(); batchParamValues.add(paramValues); loggerExternal.exiting(getClassNameLogging(), "addBatch"); } /* L0 */ public final void clearBatch() throws SQLServerException { loggerExternal.entering(getClassNameLogging(), "clearBatch"); checkClosed(); batchParamValues = null; loggerExternal.exiting(getClassNameLogging(), "clearBatch"); } public int[] executeBatch() throws SQLServerException, BatchUpdateException { loggerExternal.entering(getClassNameLogging(), "executeBatch"); if (loggerExternal.isLoggable(Level.FINER) && Util.IsActivityTraceOn()) { loggerExternal.finer(toString() + " ActivityId: " + ActivityCorrelator.getNext().toString()); } checkClosed(); discardLastExecutionResults(); int updateCounts[]; if (batchParamValues == null) updateCounts = new int[0]; else try { // From the JDBC spec, section 9.1.4 - Making Batch Updates: // The CallableStatement.executeBatch method (inherited from PreparedStatement) will // throw a BatchUpdateException if the stored procedure returns anything other than an // update count or takes OUT or INOUT parameters. // // Non-update count results (e.g. ResultSets) are treated as individual batch errors // when they are encountered in the response. // // OUT and INOUT parameter checking is done here, before executing the batch. If any // OUT or INOUT are present, the entire batch fails. for (Parameter[] paramValues : batchParamValues) { for (Parameter paramValue : paramValues) { if (paramValue.isOutput()) { throw new BatchUpdateException(SQLServerException.getErrString("R_outParamsNotPermittedinBatch"), null, 0, null); } } } PrepStmtBatchExecCmd batchCommand = new PrepStmtBatchExecCmd(this); executeStatement(batchCommand); updateCounts = new int[batchCommand.updateCounts.length]; for (int i = 0; i < batchCommand.updateCounts.length; ++i) updateCounts[i] = (int) batchCommand.updateCounts[i]; // Transform the SQLException into a BatchUpdateException with the update counts. if (null != batchCommand.batchException) { throw new BatchUpdateException(batchCommand.batchException.getMessage(), batchCommand.batchException.getSQLState(), batchCommand.batchException.getErrorCode(), updateCounts); } } finally { batchParamValues = null; } loggerExternal.exiting(getClassNameLogging(), "executeBatch", updateCounts); return updateCounts; } public long[] executeLargeBatch() throws SQLServerException, BatchUpdateException { DriverJDBCVersion.checkSupportsJDBC42(); loggerExternal.entering(getClassNameLogging(), "executeLargeBatch"); if (loggerExternal.isLoggable(Level.FINER) && Util.IsActivityTraceOn()) { loggerExternal.finer(toString() + " ActivityId: " + ActivityCorrelator.getNext().toString()); } checkClosed(); discardLastExecutionResults(); long updateCounts[]; if (batchParamValues == null) updateCounts = new long[0]; else try { // From the JDBC spec, section 9.1.4 - Making Batch Updates: // The CallableStatement.executeBatch method (inherited from PreparedStatement) will // throw a BatchUpdateException if the stored procedure returns anything other than an // update count or takes OUT or INOUT parameters. // // Non-update count results (e.g. ResultSets) are treated as individual batch errors // when they are encountered in the response. // // OUT and INOUT parameter checking is done here, before executing the batch. If any // OUT or INOUT are present, the entire batch fails. for (Parameter[] paramValues : batchParamValues) { for (Parameter paramValue : paramValues) { if (paramValue.isOutput()) { throw new BatchUpdateException(SQLServerException.getErrString("R_outParamsNotPermittedinBatch"), null, 0, null); } } } PrepStmtBatchExecCmd batchCommand = new PrepStmtBatchExecCmd(this); executeStatement(batchCommand); updateCounts = new long[batchCommand.updateCounts.length]; System.arraycopy(batchCommand.updateCounts, 0, updateCounts, 0, batchCommand.updateCounts.length); // Transform the SQLException into a BatchUpdateException with the update counts. if (null != batchCommand.batchException) { DriverJDBCVersion.throwBatchUpdateException(batchCommand.batchException, updateCounts); } } finally { batchParamValues = null; } loggerExternal.exiting(getClassNameLogging(), "executeLargeBatch", updateCounts); return updateCounts; } private final class PrepStmtBatchExecCmd extends TDSCommand { private final SQLServerPreparedStatement stmt; SQLServerException batchException; long updateCounts[]; PrepStmtBatchExecCmd(SQLServerPreparedStatement stmt) { super(stmt.toString() + " executeBatch", queryTimeout); this.stmt = stmt; } final boolean doExecute() throws SQLServerException { stmt.doExecutePreparedStatementBatch(this); return true; } final void processResponse(TDSReader tdsReader) throws SQLServerException { ensureExecuteResultsReader(tdsReader); processExecuteResults(); } } final void doExecutePreparedStatementBatch(PrepStmtBatchExecCmd batchCommand) throws SQLServerException { executeMethod = EXECUTE_BATCH; batchCommand.batchException = null; final int numBatches = batchParamValues.size(); batchCommand.updateCounts = new long[numBatches]; for (int i = 0; i < numBatches; i++) batchCommand.updateCounts[i] = Statement.EXECUTE_FAILED; // Init to unknown status EXECUTE_FAILED int numBatchesPrepared = 0; int numBatchesExecuted = 0; Vector cryptoMetaBatch = new Vector<>(); if (isSelect(userSQL)) { SQLServerException.makeFromDriverError(connection, this, SQLServerException.getErrString("R_selectNotPermittedinBatch"), null, true); } // Make sure any previous maxRows limitation on the connection is removed. connection.setMaxRows(0); if (loggerExternal.isLoggable(Level.FINER) && Util.IsActivityTraceOn()) { loggerExternal.finer(toString() + " ActivityId: " + ActivityCorrelator.getNext().toString()); } // Create the parameter array that we'll use for all the items in this batch. Parameter[] batchParam = new Parameter[inOutParam.length]; definitionChanged = false; TDSWriter tdsWriter = null; try { while (numBatchesExecuted < numBatches) { // Fill in the parameter values for this batch Parameter paramValues[] = batchParamValues.get(numBatchesPrepared); assert paramValues.length == batchParam.length; System.arraycopy(paramValues, 0, batchParam, 0, paramValues.length); boolean hasExistingTypeDefinitions = preparedTypeDefinitions != null; boolean hasNewTypeDefinitions = buildPreparedStrings(batchParam, false); // Get the encryption metadata for the first batch only. if ((0 == numBatchesExecuted) && (Util.shouldHonorAEForParameters(stmtColumnEncriptionSetting, connection)) && (0 < batchParam.length) && !isInternalEncryptionQuery && !encryptionMetadataIsRetrieved) { getParameterEncryptionMetadata(batchParam); // fix an issue when inserting unicode into non-encrypted nchar column using setString() and AE is on on Connection buildPreparedStrings(batchParam, true); // Save the crypto metadata retrieved for the first batch. We will re-use these for the rest of the batches. for (Parameter aBatchParam : batchParam) { cryptoMetaBatch.add(aBatchParam.cryptoMeta); } } // Update the crypto metadata for this batch. if (0 < numBatchesExecuted) { // cryptoMetaBatch will be empty for non-AE connections/statements. for (int i = 0; i < cryptoMetaBatch.size(); i++) { batchParam[i].cryptoMeta = cryptoMetaBatch.get(i); } } if (reuseCachedHandle(hasNewTypeDefinitions, false)) { hasNewTypeDefinitions = false; } if (numBatchesExecuted < numBatchesPrepared) { // assert null != tdsWriter; tdsWriter.writeByte((byte) nBatchStatementDelimiter); } else { resetForReexecute(); tdsWriter = batchCommand.startRequest(TDS.PKT_RPC); } // If we have to (re)prepare the statement then we must execute it so // that we get back a (new) prepared statement handle to use to // execute additional batches. // // We must always prepare the statement the first time through. // But we may also need to reprepare the statement if, for example, // the size of a batch's string parameter values changes such // that repreparation is necessary. ++numBatchesPrepared; if (doPrepExec(tdsWriter, batchParam, hasNewTypeDefinitions, hasExistingTypeDefinitions) || numBatchesPrepared == numBatches) { ensureExecuteResultsReader(batchCommand.startResponse(getIsResponseBufferingAdaptive())); while (numBatchesExecuted < numBatchesPrepared) { // NOTE: // When making changes to anything below, consider whether similar changes need // to be made to Statement batch execution. startResults(); try { // Get the first result from the batch. If there is no result for this batch // then bail, leaving EXECUTE_FAILED in the current and remaining slots of // the update count array. if (!getNextResult()) return; // If the result is a ResultSet (rather than an update count) then throw an // exception for this result. The exception gets caught immediately below and // translated into (or added to) a BatchUpdateException. if (null != resultSet) { SQLServerException.makeFromDriverError(connection, this, SQLServerException.getErrString("R_resultsetGeneratedForUpdate"), null, false); } } catch (SQLServerException e) { // If the failure was severe enough to close the connection or roll back a // manual transaction, then propagate the error up as a SQLServerException // now, rather than continue with the batch. if (connection.isSessionUnAvailable() || connection.rolledBackTransaction()) throw e; // Otherwise, the connection is OK and the transaction is still intact, // so just record the failure for the particular batch item. updateCount = Statement.EXECUTE_FAILED; if (null == batchCommand.batchException) batchCommand.batchException = e; } // In batch execution, we have a special update count // to indicate that no information was returned batchCommand.updateCounts[numBatchesExecuted] = (-1 == updateCount) ? Statement.SUCCESS_NO_INFO : updateCount; processBatch(); numBatchesExecuted++; } // Only way to proceed with preparing the next set of batches is if // we successfully executed the previously prepared set. assert numBatchesExecuted == numBatchesPrepared; } } } catch (SQLServerException e) { // throw the initial batchException if (null != batchCommand.batchException) { throw batchCommand.batchException; } else { throw e; } } } public final void setCharacterStream(int parameterIndex, Reader reader) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setCharacterStream", new Object[] {parameterIndex, reader}); checkClosed(); setStream(parameterIndex, StreamType.CHARACTER, reader, JavaType.READER, DataTypes.UNKNOWN_STREAM_LENGTH); loggerExternal.exiting(getClassNameLogging(), "setCharacterStream"); } public final void setCharacterStream(int n, java.io.Reader reader, int length) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setCharacterStream", new Object[] {n, reader, length}); checkClosed(); setStream(n, StreamType.CHARACTER, reader, JavaType.READER, length); loggerExternal.exiting(getClassNameLogging(), "setCharacterStream"); } public final void setCharacterStream(int parameterIndex, Reader reader, long length) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setCharacterStream", new Object[] {parameterIndex, reader, length}); checkClosed(); setStream(parameterIndex, StreamType.CHARACTER, reader, JavaType.READER, length); loggerExternal.exiting(getClassNameLogging(), "setCharacterStream"); } public final void setNCharacterStream(int parameterIndex, Reader value) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setNCharacterStream", new Object[] {parameterIndex, value}); checkClosed(); setStream(parameterIndex, StreamType.NCHARACTER, value, JavaType.READER, DataTypes.UNKNOWN_STREAM_LENGTH); loggerExternal.exiting(getClassNameLogging(), "setNCharacterStream"); } public final void setNCharacterStream(int parameterIndex, Reader value, long length) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setNCharacterStream", new Object[] {parameterIndex, value, length}); checkClosed(); setStream(parameterIndex, StreamType.NCHARACTER, value, JavaType.READER, length); loggerExternal.exiting(getClassNameLogging(), "setNCharacterStream"); } /* L0 */ public final void setRef(int i, java.sql.Ref x) throws SQLServerException { NotImplemented(); } public final void setBlob(int i, java.sql.Blob x) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBlob", new Object[] {i, x}); checkClosed(); setValue(i, JDBCType.BLOB, x, JavaType.BLOB, false); loggerExternal.exiting(getClassNameLogging(), "setBlob"); } public final void setBlob(int parameterIndex, InputStream inputStream) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBlob", new Object[] {parameterIndex, inputStream}); checkClosed(); setStream(parameterIndex, StreamType.BINARY, inputStream, JavaType.INPUTSTREAM, DataTypes.UNKNOWN_STREAM_LENGTH); loggerExternal.exiting(getClassNameLogging(), "setBlob"); } public final void setBlob(int parameterIndex, InputStream inputStream, long length) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setBlob", new Object[] {parameterIndex, inputStream, length}); checkClosed(); setStream(parameterIndex, StreamType.BINARY, inputStream, JavaType.INPUTSTREAM, length); loggerExternal.exiting(getClassNameLogging(), "setBlob"); } public final void setClob(int parameterIndex, java.sql.Clob clobValue) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setClob", new Object[] {parameterIndex, clobValue}); checkClosed(); setValue(parameterIndex, JDBCType.CLOB, clobValue, JavaType.CLOB, false); loggerExternal.exiting(getClassNameLogging(), "setClob"); } public final void setClob(int parameterIndex, Reader reader) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setClob", new Object[] {parameterIndex, reader}); checkClosed(); setStream(parameterIndex, StreamType.CHARACTER, reader, JavaType.READER, DataTypes.UNKNOWN_STREAM_LENGTH); loggerExternal.exiting(getClassNameLogging(), "setClob"); } public final void setClob(int parameterIndex, Reader reader, long length) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setClob", new Object[] {parameterIndex, reader, length}); checkClosed(); setStream(parameterIndex, StreamType.CHARACTER, reader, JavaType.READER, length); loggerExternal.exiting(getClassNameLogging(), "setClob"); } public final void setNClob(int parameterIndex, NClob value) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setNClob", new Object[] {parameterIndex, value}); checkClosed(); setValue(parameterIndex, JDBCType.NCLOB, value, JavaType.NCLOB, false); loggerExternal.exiting(getClassNameLogging(), "setNClob"); } public final void setNClob(int parameterIndex, Reader reader) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setNClob", new Object[] {parameterIndex, reader}); checkClosed(); setStream(parameterIndex, StreamType.NCHARACTER, reader, JavaType.READER, DataTypes.UNKNOWN_STREAM_LENGTH); loggerExternal.exiting(getClassNameLogging(), "setNClob"); } public final void setNClob(int parameterIndex, Reader reader, long length) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setNClob", new Object[] {parameterIndex, reader, length}); checkClosed(); setStream(parameterIndex, StreamType.NCHARACTER, reader, JavaType.READER, length); loggerExternal.exiting(getClassNameLogging(), "setNClob"); } /* L0 */ public final void setArray(int i, java.sql.Array x) throws SQLServerException { NotImplemented(); } public final void setDate(int n, java.sql.Date x, java.util.Calendar cal) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setDate", new Object[] {n, x, cal}); checkClosed(); setValue(n, JDBCType.DATE, x, JavaType.DATE, cal, false); loggerExternal.exiting(getClassNameLogging(), "setDate"); } /** * Sets the designated parameter to the given java.sql.Date value, using the given Calendar object. The driver uses the * Calendar object to construct an SQL DATE value, which the driver then sends to the database. With a * Calendar object, the driver can calculate the date taking into account a custom timezone. If no Calendar object is * specified, the driver uses the default timezone, which is that of the virtual machine running the application. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param cal * the Calendar object the driver will use to construct the date * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setDate(int n, java.sql.Date x, java.util.Calendar cal, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setDate", new Object[] {n, x, cal, forceEncrypt}); checkClosed(); setValue(n, JDBCType.DATE, x, JavaType.DATE, cal, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setDate"); } public final void setTime(int n, java.sql.Time x, java.util.Calendar cal) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setTime", new Object[] {n, x, cal}); checkClosed(); setValue(n, JDBCType.TIME, x, JavaType.TIME, cal, false); loggerExternal.exiting(getClassNameLogging(), "setTime"); } /** * Sets the designated parameter to the given java.sql.Time value. The driver converts this to an SQL TIME value when it * sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param cal * the Calendar object the driver will use to construct the date * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setTime(int n, java.sql.Time x, java.util.Calendar cal, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setTime", new Object[] {n, x, cal, forceEncrypt}); checkClosed(); setValue(n, JDBCType.TIME, x, JavaType.TIME, cal, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setTime"); } public final void setTimestamp(int n, java.sql.Timestamp x, java.util.Calendar cal) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setTimestamp", new Object[] {n, x, cal}); checkClosed(); setValue(n, JDBCType.TIMESTAMP, x, JavaType.TIMESTAMP, cal, false); loggerExternal.exiting(getClassNameLogging(), "setTimestamp"); } /** * Sets the designated parameter to the given java.sql.Timestamp value. The driver converts this to an SQL TIMESTAMP * value when it sends it to the database. * * @param n * the first parameter is 1, the second is 2, ... * @param x * the parameter value * @param cal * the Calendar object the driver will use to construct the date * @param forceEncrypt * If the boolean forceEncrypt is set to true, the query parameter will only be set if the designation column is encrypted and Always * Encrypted is enabled on the connection or on the statement. If the boolean forceEncrypt is set to false, the driver will not force * encryption on parameters. * @throws SQLServerException * when an error occurs */ public final void setTimestamp(int n, java.sql.Timestamp x, java.util.Calendar cal, boolean forceEncrypt) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setTimestamp", new Object[] {n, x, cal, forceEncrypt}); checkClosed(); setValue(n, JDBCType.TIMESTAMP, x, JavaType.TIMESTAMP, cal, forceEncrypt); loggerExternal.exiting(getClassNameLogging(), "setTimestamp"); } public final void setNull(int paramIndex, int sqlType, String typeName) throws SQLServerException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setNull", new Object[] {paramIndex, sqlType, typeName}); checkClosed(); if (microsoft.sql.Types.STRUCTURED == sqlType) { setObject(setterGetParam(paramIndex), null, JavaType.TVP, JDBCType.of(sqlType), null, null, false, paramIndex, typeName); } else { setObject(setterGetParam(paramIndex), null, JavaType.OBJECT, JDBCType.of(sqlType), null, null, false, paramIndex, typeName); } loggerExternal.exiting(getClassNameLogging(), "setNull"); } /** * Returns parameter metadata for the prepared statement. * * @param forceRefresh: * If true the cache will not be used to retrieve the metadata. * * @return * Per the description. * * @throws SQLServerException when an error occurs */ public final ParameterMetaData getParameterMetaData(boolean forceRefresh) throws SQLServerException { SQLServerParameterMetaData pmd = this.connection.getCachedParameterMetadata(sqlTextCacheKey); if (!forceRefresh && null != pmd) { return pmd; } else { loggerExternal.entering(getClassNameLogging(), "getParameterMetaData"); checkClosed(); pmd = new SQLServerParameterMetaData(this, userSQL); connection.registerCachedParameterMetadata(sqlTextCacheKey, pmd); loggerExternal.exiting(getClassNameLogging(), "getParameterMetaData", pmd); return pmd; } } /* JDBC 3.0 */ /* L3 */ public final ParameterMetaData getParameterMetaData() throws SQLServerException { return getParameterMetaData(false); } /* L3 */ public final void setURL(int parameterIndex, java.net.URL x) throws SQLServerException { NotImplemented(); } public final void setRowId(int parameterIndex, RowId x) throws SQLException { // Not implemented throw new SQLFeatureNotSupportedException(SQLServerException.getErrString("R_notSupported")); } public final void setSQLXML(int parameterIndex, SQLXML xmlObject) throws SQLException { if (loggerExternal.isLoggable(java.util.logging.Level.FINER)) loggerExternal.entering(getClassNameLogging(), "setSQLXML", new Object[] {parameterIndex, xmlObject}); checkClosed(); setSQLXMLInternal(parameterIndex, xmlObject); loggerExternal.exiting(getClassNameLogging(), "setSQLXML"); } /* make sure we throw here */ /* L0 */ public final int executeUpdate(String sql) throws SQLServerException { loggerExternal.entering(getClassNameLogging(), "executeUpdate", sql); MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_cannotTakeArgumentsPreparedOrCallable")); Object[] msgArgs = {"executeUpdate()"}; throw new SQLServerException(this, form.format(msgArgs), null, 0, false); } /* L0 */ public final boolean execute(String sql) throws SQLServerException { loggerExternal.entering(getClassNameLogging(), "execute", sql); MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_cannotTakeArgumentsPreparedOrCallable")); Object[] msgArgs = {"execute()"}; throw new SQLServerException(this, form.format(msgArgs), null, 0, false); } /* L0 */ public final java.sql.ResultSet executeQuery(String sql) throws SQLServerException { loggerExternal.entering(getClassNameLogging(), "executeQuery", sql); MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_cannotTakeArgumentsPreparedOrCallable")); Object[] msgArgs = {"executeQuery()"}; throw new SQLServerException(this, form.format(msgArgs), null, 0, false); } /* L0 */ public void addBatch(String sql) throws SQLServerException { loggerExternal.entering(getClassNameLogging(), "addBatch", sql); MessageFormat form = new MessageFormat(SQLServerException.getErrString("R_cannotTakeArgumentsPreparedOrCallable")); Object[] msgArgs = {"addBatch()"}; throw new SQLServerException(this, form.format(msgArgs), null, 0, false); } }





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