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* <p>If the given {@link ResultSet} is NULL, nothing (even exception/error) happens.</p>
* <p>
* If any {@link SQLException} occurs during this operation, it is caught and just logged
* (see {@link TAPLog#logDB(uws.service.log.UWSLog.LogLevel, DBConnection, String, String, Throwable)}).
* No error is thrown and nothing else is done.
* </p>
* @param rs {@link ResultSet} to close.
*/
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protected final void close(final ResultSet rs) {
try {
if (rs != null)
rs.close();
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} catch(SQLException se) {
if (logger != null)
logger.logDB(LogLevel.WARNING, this, "CLOSE", "Can not close a ResultSet!", null);
}
}
/**
* <p>Close silently the given {@link Statement}.</p>
* <p>If the given {@link Statement} is NULL, nothing (even exception/error) happens.</p>
* <p>
* The given statement is explicitly canceled by this function before being closed.
* Thus the corresponding DBMS process is ensured to be stopped. Of course, this
* cancellation is effective only if this operation is supported by the JDBC driver
* and the DBMS.
* </p>
* <p><b>Important note:</b>
* In case of cancellation, <b>NO</b> rollback is performed.
* </p>
* <p>
* If any {@link SQLException} occurs during this operation, it is caught and just logged
* (see {@link TAPLog#logDB(uws.service.log.UWSLog.LogLevel, DBConnection, String, String, Throwable)}).
* No error is thrown and nothing else is done.
* </p>
* @param stmt {@link Statement} to close.
* @see #cancel(Statement, boolean)
*/
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protected final void close(final Statement stmt) {
try {
if (stmt != null) {
cancel(stmt, false);
stmt.close();
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} catch(SQLException se) {
if (logger != null)
logger.logDB(LogLevel.WARNING, this, "CLOSE", "Can not close a Statement!", null);
}
}
/**
* <p>Transform the given column value in a boolean value.</p>
* <p>The following cases are taken into account in function of the given value's type:</p>
* <ul>
* <li><b>NULL</b>: <i>false</i> is always returned.</li>
* <li><b>{@link Boolean}</b>: the boolean value is returned as provided (but casted in boolean).</li>
* <li><b>{@link Integer}</b>: <i>true</i> is returned only if the integer value is strictly greater than 0, otherwise <i>false</i> is returned.</li>
* <li><b>Other</b>: toString().trim() is first called on this object. Then, an integer value is tried to be extracted from it.
* If it succeeds, the previous rule is applied. If it fails, <i>true</i> will be returned only if the string is "t" or "true" (case insensitively).</li>
* </ul>
* @param colValue The column value to transform in boolean.
* @return Its corresponding boolean value.
*/
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protected final boolean toBoolean(final Object colValue) {
// NULL => false:
if (colValue == null)
return false;
// Boolean value => cast in boolean and return this value:
else if (colValue instanceof Boolean)
return ((Boolean)colValue).booleanValue();
// Integer value => cast in integer and return true only if the value is positive and not null:
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else if (colValue instanceof Integer) {
int intFlag = ((Integer)colValue).intValue();
return (intFlag > 0);
}
// Otherwise => get the string representation and:
// 1/ try to cast it into an integer and apply the same test as before
// 2/ if the cast fails, return true only if the value is "t" or "true" (case insensitively):
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else {
String strFlag = colValue.toString().trim();
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try {
int intFlag = Integer.parseInt(strFlag);
return (intFlag > 0);
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} catch(NumberFormatException nfe) {
return strFlag.equalsIgnoreCase("t") || strFlag.equalsIgnoreCase("true");
}
}
}
/**
* Return NULL if the given column value is an empty string (or it just contains space characters) or NULL.
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* Otherwise the given string is returned as provided.
* @param dbValue Value to nullify if needed.
* @return NULL if the given string is NULL or empty, otherwise the given value.
*/
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protected final String nullifyIfNeeded(final String dbValue) {
return (dbValue != null && dbValue.trim().length() <= 0) ? null : dbValue;
}
/**
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* Search a {@link TAPTable} instance whose the ADQL name matches exactly
* (and case sensitively) to the given one.
* @param tableName ADQL name of the table to search.
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* @param itTables Iterator over the set of tables in which the research
* must be done.
* @return The found table, or NULL if not found.
*/
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private TAPTable searchTable(String tableName, final Iterator<TAPTable> itTables) {
// Search by schema name (if any) and then by table name:
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while(itTables.hasNext()) {
// get the table:
TAPTable table = itTables.next();
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if (tableName.equals(table.getRawName()))
return table;
}
// NULL if no table matches:
return null;
}
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/**
* Get the index of the column returning the schema name in the ResultSet
* returned by {@link DatabaseMetaData#getTables(String, String, String, String[])}.
*
* <p>
* The index returned by this function may be different from one DBMS from
* another depending on how it deals with schemas. For instance, in MySQL
* database, schemas are interpreted as catalogs (so the index would be 2
* instead of 1).
* </p>
*
* @return Index of the column providing the table's schema name.
*
* @since 2.1
*/
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protected int getTableSchemaIndexInMetadata() {
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return dbms.equalsIgnoreCase(DBMS_MYSQL) ? 1 : 2;
}
/**
* Get all schemas available in the database.
*
* @param dbMeta Metadata of the database to investigate.
*
* @return Metadata about all available schemas.
*
* @throws SQLException If any error occurs while querying the database
* metadata.
*
* @since 2.1
*/
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protected ResultSet getDBMetaSchemas(final DatabaseMetaData dbMeta) throws SQLException {
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return (dbms.equalsIgnoreCase(DBMS_MYSQL) ? dbMeta.getCatalogs() : dbMeta.getSchemas());
}
/**
* Get all tables matching the given table name pattern and being inside
* the specified schema(s).
*
* @param dbMeta Metadata of the database to investigate.
* @param schemaPattern Pattern matching the schema(s) name containing the
* target tables.
* <i>If NULL, the table will be searched in all
* schemas.</i>
* @param tablePattern Pattern matching the name of the tables to list.
*
* @return Metadata about all matching tables.
*
* @throws SQLException If any error occurs while querying the database
* metadata.
*
* @since 2.1
*/
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protected ResultSet getDBMetaTables(final DatabaseMetaData dbMeta, final String schemaPattern, final String tablePattern) throws SQLException {
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if (dbms.equalsIgnoreCase(DBMS_MYSQL))
return dbMeta.getTables(schemaPattern, null, tablePattern, null);
else
return dbMeta.getTables(null, schemaPattern, tablePattern, null);
}
/**
* Get all columns matching the given column name pattern and being inside
* the specified table(s) and schema(s).
*
* @param dbMeta Metadata of the database to investigate.
* @param schemaPattern Pattern matching the schema(s) name containing the
* target columns.
* <i>If NULL, the columns will be searched in all
* schemas.</i>
* @param tablePattern Pattern matching the table(s) name containing the
* target columns.
* <i>If NULL, the columns will be searched in all
* tables.</i>
* @param columnPattern Pattern matching the name of the columns to list.
*
* @return Metadata about all matching columns.
*
* @throws SQLException If any error occurs while querying the database
* metadata.
*
* @since 2.1
*/
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protected ResultSet getDBMetaColumns(final DatabaseMetaData dbMeta, final String schemaPattern, final String tablePattern, final String columnPattern) throws SQLException {
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if (dbms.equalsIgnoreCase(DBMS_MYSQL))
return dbMeta.getColumns(schemaPattern, null, tablePattern, columnPattern);
else
return dbMeta.getColumns(null, schemaPattern, tablePattern, columnPattern);
}
/**
* <p>Tell whether the specified schema exists in the database.
* To do so, it is using the given {@link DatabaseMetaData} object to query the database and list all existing schemas.</p>
* <p><i>Note:
* This function is completely useless if the connection is not supporting schemas.
* </i></p>
* <p><i>Note:
* Test on the schema name is done considering the case sensitivity indicated by the translator
* (see {@link JDBCTranslator#isCaseSensitive(IdentifierField)}).
* </i></p>
* <p><i>Note:
* This functions is used by {@link #addUploadedTable(TAPTable, TableIterator)} and {@link #resetTAPSchema(Statement, TAPTable[])}.
* </i></p>
* @param schemaName DB name of the schema whose the existence must be checked.
* @param dbMeta Metadata about the database, and mainly the list of all existing schemas.
* @return <i>true</i> if the specified schema exists, <i>false</i> otherwise.
* @throws SQLException If any error occurs while interrogating the database about existing schema.
*/
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protected boolean isSchemaExisting(String schemaName, final DatabaseMetaData dbMeta) throws SQLException {
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if (!supportsSchema || schemaName == null || schemaName.length() == 0)
return true;
// Determine the case sensitivity to use for the equality test:
boolean caseSensitive = translator.isCaseSensitive(IdentifierField.SCHEMA);
ResultSet rs = null;
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try {
// List all schemas available and stop when a schema name matches ignoring the case:
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rs = getDBMetaSchemas(dbMeta);
boolean hasSchema = false;
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while(!hasSchema && rs.next()) {
hasSchema = equals(rs.getString(1), schemaName, caseSensitive);
return hasSchema;
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} finally {
close(rs);
}
}
/**
* <p>Tell whether the specified table exists in the database.
* To do so, it is using the given {@link DatabaseMetaData} object to query the database and list all existing tables.</p>
* <p><i><b>Important note:</b>
* If schemas are not supported by this connection but a schema name is even though provided in parameter,
* the table name will be prefixed by the schema name.
* The research will then be done with NULL as schema name and this prefixed table name.
* </i></p>
* <p><i>Note:
* Test on the schema name is done considering the case sensitivity indicated by the translator
* (see {@link JDBCTranslator#isCaseSensitive(IdentifierField)}).
* </i></p>
* <p><i>Note:
* This function is used by {@link #addUploadedTable(TAPTable, TableIterator)} and {@link #dropUploadedTable(TAPTable)}.
* </i></p>
* @param schemaName DB name of the schema in which the table to search is. <i>If NULL, the table is expected in any schema but ONLY one MUST exist.</i>
* @param tableName DB name of the table to search.
* @param dbMeta Metadata about the database, and mainly the list of all existing tables.
* @return <i>true</i> if the specified table exists, <i>false</i> otherwise.
* @throws SQLException If any error occurs while interrogating the database about existing tables.
*/
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protected boolean isTableExisting(String schemaName, String tableName, final DatabaseMetaData dbMeta) throws DBException, SQLException {
if (tableName == null || tableName.length() == 0)
return true;
// Determine the case sensitivity to use for the equality test:
boolean schemaCaseSensitive = translator.isCaseSensitive(IdentifierField.SCHEMA);
boolean tableCaseSensitive = translator.isCaseSensitive(IdentifierField.TABLE);
ResultSet rs = null;
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try {
// List all matching tables:
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if (supportsSchema) {
String schemaPattern = schemaCaseSensitive ? schemaName : null;
String tablePattern = tableCaseSensitive ? tableName : null;
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rs = getDBMetaTables(dbMeta, schemaPattern, tablePattern);
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} else {
String tablePattern = tableCaseSensitive ? tableName : null;
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rs = getDBMetaTables(dbMeta, null, tablePattern);
}
// Stop on the first table which match completely (schema name + table name in function of their respective case sensitivity):
int cnt = 0;
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while(rs.next()) {
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String rsSchema = nullifyIfNeeded(rs.getString(getTableSchemaIndexInMetadata()));
String rsTable = rs.getString(3);
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if (!supportsSchema || schemaName == null || equals(rsSchema, schemaName, schemaCaseSensitive)) {
if (equals(rsTable, tableName, tableCaseSensitive))
cnt++;
}
}
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if (cnt > 1) {
if (logger != null)
logger.logDB(LogLevel.ERROR, this, "TABLE_EXIST", "More than one table match to these criteria (schema=" + schemaName + " (case sensitive?" + schemaCaseSensitive + ") && table=" + tableName + " (case sensitive?" + tableCaseSensitive + "))!", null);
throw new DBException("More than one table match to these criteria (schema=" + schemaName + " (case sensitive?" + schemaCaseSensitive + ") && table=" + tableName + " (case sensitive?" + tableCaseSensitive + "))!");
}
return cnt == 1;
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} finally {
close(rs);
}
}
/**
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* <p>Tell whether the specified column exists in the specified table of the database.
* To do so, it is using the given {@link DatabaseMetaData} object to query the database and list all existing columns.</p>
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* <p><i><b>Important note:</b>
* If schemas are not supported by this connection but a schema name is even though provided in parameter,
* the table name will be prefixed by the schema name.
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* The research will then be done with NULL as schema name and this prefixed table name.
* </i></p>
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* <p><i>Note:
* Test on the schema name is done considering the case sensitivity indicated by the translator
* (see {@link JDBCTranslator#isCaseSensitive(IdentifierField)}).
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* </i></p>
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* <p><i>Note:
* This function is used by {@link #loadSchemas(TAPTable, TAPMetadata, Statement)}, {@link #loadTables(TAPTable, TAPMetadata, Statement)}
* and {@link #loadColumns(TAPTable, List, Statement)}.
* </i></p>
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* @param schemaName DB name of the table schema. <i>MAY BE NULL</i>
* @param tableName DB name of the table containing the column to search. <i>MAY BE NULL</i>
* @param columnName DB name of the column to search.
* @param dbMeta Metadata about the database, and mainly the list of all existing tables.
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* @return <i>true</i> if the specified column exists, <i>false</i> otherwise.
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* @throws SQLException If any error occurs while interrogating the database about existing columns.
*/
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protected boolean isColumnExisting(String schemaName, String tableName, String columnName, final DatabaseMetaData dbMeta) throws DBException, SQLException {
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if (columnName == null || columnName.length() == 0)
return true;
// Determine the case sensitivity to use for the equality test:
boolean schemaCaseSensitive = translator.isCaseSensitive(IdentifierField.SCHEMA);
boolean tableCaseSensitive = translator.isCaseSensitive(IdentifierField.TABLE);
boolean columnCaseSensitive = translator.isCaseSensitive(IdentifierField.COLUMN);
ResultSet rsT = null, rsC = null;
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try {
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/* Note:
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* The DatabaseMetaData.getColumns(....) function does not work properly
* with the SQLite driver: when all parameters are set to null, meaning all columns of the database
* must be returned, absolutely no rows are selected.
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* The solution proposed here, is to first search all (matching) tables, and then for each table get
* all its columns and find the matching one(s).
*/
// List all matching tables:
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if (supportsSchema) {
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String schemaPattern = schemaCaseSensitive ? schemaName : null;
String tablePattern = tableCaseSensitive ? tableName : null;
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rsT = getDBMetaTables(dbMeta, schemaPattern, tablePattern);
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} else {
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String tablePattern = tableCaseSensitive ? tableName : null;
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rsT = getDBMetaTables(dbMeta, null, tablePattern);
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}
// For each matching table:
int cnt = 0;
String columnPattern = columnCaseSensitive ? columnName : null;
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while(rsT.next()) {
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String rsSchema = nullifyIfNeeded(rsT.getString(getTableSchemaIndexInMetadata()));
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String rsTable = rsT.getString(3);
// test the schema name:
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if (!supportsSchema || schemaName == null || equals(rsSchema, schemaName, schemaCaseSensitive)) {
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// test the table name:
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if ((tableName == null || equals(rsTable, tableName, tableCaseSensitive))) {
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// list its columns:
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rsC = getDBMetaColumns(dbMeta, rsSchema, rsTable, columnPattern);
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// count all matching columns:
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while(rsC.next()) {
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String rsColumn = rsC.getString(4);
if (equals(rsColumn, columnName, columnCaseSensitive))
cnt++;
}
close(rsC);
}
}
}
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if (cnt > 1) {
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if (logger != null)
logger.logDB(LogLevel.ERROR, this, "COLUMN_EXIST", "More than one column match to these criteria (schema=" + schemaName + " (case sensitive?" + schemaCaseSensitive + ") && table=" + tableName + " (case sensitive?" + tableCaseSensitive + ") && column=" + columnName + " (case sensitive?" + columnCaseSensitive + "))!", null);
throw new DBException("More than one column match to these criteria (schema=" + schemaName + " (case sensitive?" + schemaCaseSensitive + ") && table=" + tableName + " (case sensitive?" + tableCaseSensitive + ") && column=" + columnName + " (case sensitive?" + columnCaseSensitive + "))!");
}
return cnt == 1;
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} finally {
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close(rsT);
close(rsC);
}
}
/*
* <p>Build a table prefix with the given schema name.</p>
* <p>By default, this function returns: schemaName + "_".</p>
* <p><b>CAUTION:
* This function is used only when schemas are not supported by the DBMS connection.
* It aims to propose an alternative of the schema notion by prefixing the table name by the schema name.
* </b></p>
* <p><i>Note:
* If the given schema is NULL or is an empty string, an empty string will be returned.
* Thus, no prefix will be set....which is very useful when the table name has already been prefixed
* (in such case, the DB name of its schema has theoretically set to NULL).
* </i></p>
* @param schemaName (DB) Schema name.
* @return The corresponding table prefix, or "" if the given schema name is an empty string or NULL.
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*
protected String getTablePrefix(final String schemaName){
if (schemaName != null && schemaName.trim().length() > 0)
return schemaName + "_";
else
return "";
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}*/
/**
* Tell whether the specified table (using its DB name only) is a standard one or not.
* @param dbTableName DB (unqualified) table name.
* @param stdTables List of all tables to consider as the standard ones.
* @param caseSensitive Indicate whether the equality test must be done case sensitively or not.
* @return The corresponding {@link STDTable} if the specified table is a standard one,
* NULL otherwise.
* @see TAPMetadata#resolveStdTable(String)
*/
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protected final STDTable isStdTable(final String dbTableName, final TAPTable[] stdTables, final boolean caseSensitive) {
if (dbTableName != null) {
for(TAPTable t : stdTables) {
if (equals(dbTableName, t.getDBName(), caseSensitive))
return TAPMetadata.resolveStdTable(t.getADQLName());
}
}
return null;
}
/**
* <p>"Execute" the query update. <i>This update must concern ONLY ONE ROW.</i></p>
* <p>
* Note that the "execute" action will be different in function of whether batch update queries are supported or not by this connection:
* </p>
* <ul>
* <li>
* If <b>batch update queries are supported</b>, just {@link PreparedStatement#addBatch()} will be called.
* It means, the query will be appended in a list and will be executed only if
* {@link #executeBatchUpdates(PreparedStatement, int)} is then called.
* </li>
* <li>
* If <b>they are NOT supported</b>, {@link PreparedStatement#executeUpdate()} will merely be called.
* </li>
* </ul>
* <p>
* Before returning, and only if batch update queries are not supported, this function is ensuring that exactly one row has been updated.
* If it is not the case, a {@link DBException} is thrown.
* </p>
* <p><i><b>Important note:</b>
* If the function {@link PreparedStatement#addBatch()} fails by throwing an {@link SQLException}, batch updates
* will be afterwards considered as not supported by this connection. Besides, if this row is the first one in a batch update (parameter indRow=1),
* then, the error will just be logged and an {@link PreparedStatement#executeUpdate()} will be tried. However, if the row is not the first one,
* the error will be logged but also thrown as a {@link DBException}. In both cases, a subsequent call to
* {@link #executeBatchUpdates(PreparedStatement, int)} will have obviously no effect.
* </i></p>
* @param stmt {@link PreparedStatement} in which the update query has been prepared.
* @param indRow Index of the row in the whole update process. It is used only for error management purpose.
* @throws SQLException If {@link PreparedStatement#executeUpdate()} fails.</i>
* @throws DBException If {@link PreparedStatement#addBatch()} fails and this update does not concern the first row, or if the number of updated rows is different from 1.
*/
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protected final void executeUpdate(final PreparedStatement stmt, int indRow) throws SQLException, DBException {
// BATCH INSERTION: (the query is queued and will be executed later)
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if (supportsBatchUpdates) {
// Add the prepared query in the batch queue of the statement:
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try {
stmt.addBatch();
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} catch(SQLException se) {
if (!isCancelled())
supportsBatchUpdates = false;
/*
* If the error happens for the first row, it is still possible to insert all rows
* with the non-batch function - executeUpdate().
* Otherwise, it is impossible to insert the previous batched rows ; an exception must be thrown
* and must stop the whole TAP_SCHEMA initialization.
*/
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if (indRow == 1) {
if (!isCancelled() && logger != null)
logger.logDB(LogLevel.WARNING, this, "EXEC_UPDATE", "BATCH query impossible => TRYING AGAIN IN A NORMAL EXECUTION (executeUpdate())!", se);
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} else {
if (!isCancelled() && logger != null)
logger.logDB(LogLevel.ERROR, this, "EXEC_UPDATE", "BATCH query impossible!", se);
throw new DBException("BATCH query impossible!", se);
}
}
}
// NORMAL INSERTION: (immediate insertion)
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if (!supportsBatchUpdates) {
// Insert the row prepared in the given statement:
int nbRowsWritten = stmt.executeUpdate();
// Check the row has been inserted with success:
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if (nbRowsWritten != 1) {
if (logger != null)
logger.logDB(LogLevel.ERROR, this, "EXEC_UPDATE", "ROW " + indRow + " not inserted!", null);
throw new DBException("ROW " + indRow + " not inserted!");
}
}
}
/**
* <p>Execute all batched queries.</p>
* <p>To do so, {@link PreparedStatement#executeBatch()} and then, if the first was successful, {@link PreparedStatement#clearBatch()} is called.</p>
* <p>
* Before returning, this function is ensuring that exactly the given number of rows has been updated.
* If it is not the case, a {@link DBException} is thrown.
* </p>
* <p><i>Note:
* This function has no effect if batch queries are not supported.
* </i></p>
* <p><i><b>Important note:</b>
* In case {@link PreparedStatement#executeBatch()} fails by throwing an {@link SQLException},
* batch update queries will be afterwards considered as not supported by this connection.
* </i></p>
* @param stmt {@link PreparedStatement} in which the update query has been prepared.
* @param nbRows Number of rows that should be updated.
* @throws DBException If {@link PreparedStatement#executeBatch()} fails, or if the number of updated rows is different from the given one.
*/
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protected final void executeBatchUpdates(final PreparedStatement stmt, int nbRows) throws DBException {
if (supportsBatchUpdates) {
// Execute all the batch queries:
int[] rows;
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try {
rows = stmt.executeBatch();
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} catch(SQLException se) {
if (!isCancelled()) {
supportsBatchUpdates = false;
if (logger != null)
logger.logDB(LogLevel.ERROR, this, "EXEC_UPDATE", "BATCH execution impossible!", se);
}
throw new DBException("BATCH execution impossible!", se);
}
// Remove executed queries from the statement:
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try {
stmt.clearBatch();
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} catch(SQLException se) {
if (!isCancelled() && logger != null)
logger.logDB(LogLevel.WARNING, this, "EXEC_UPDATE", "CLEAR BATCH impossible!", se);
}
// Count the updated rows:
int nbRowsUpdated = 0;
for(int i = 0; i < rows.length; i++)
nbRowsUpdated += rows[i];
// Check all given rows have been inserted with success:
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if (nbRowsUpdated != nbRows) {
if (logger != null)
logger.logDB(LogLevel.ERROR, this, "EXEC_UPDATE", "ROWS not all update (" + nbRows + " to update ; " + nbRowsUpdated + " updated)!", null);
throw new DBException("ROWS not all updated (" + nbRows + " to update ; " + nbRowsUpdated + " updated)!");
}
}
}
/**
* Append all items of the iterator inside the given list.
* @param lst List to update.
* @param it All items to append inside the list.
*/
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private <T> void appendAllInto(final List<T> lst, final Iterator<T> it) {
while(it.hasNext())
lst.add(it.next());
}
/**
* <p>Tell whether the given DB name is equals (case sensitively or not, in function of the given parameter)
* to the given name coming from a {@link TAPMetadata} object.</p>
* <p>If at least one of the given name is NULL, <i>false</i> is returned.</p>
* <p><i>Note:
* The comparison will be done in function of the specified case sensitivity BUT ALSO of the case supported and stored by the DBMS.
* For instance, if it has been specified a case insensitivity and that mixed case is not supported by unquoted identifier,
* the comparison must be done, surprisingly, by considering the case if unquoted identifiers are stored in lower or upper case.
* Thus, this special way to evaluate equality should be as closed as possible to the identifier storage and research policies of the used DBMS.
* @param dbName Name provided by the database.
* @param metaName Name provided by a {@link TAPMetadata} object.
* @param caseSensitive <i>true</i> if the equality test must be done case sensitively, <i>false</i> otherwise.
* @return <i>true</i> if both names are equal, <i>false</i> otherwise.
*/
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protected final boolean equals(final String dbName, final String metaName, final boolean caseSensitive) {
if (dbName == null || metaName == null)
return false;
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if (caseSensitive) {
if (supportsMixedCaseQuotedIdentifier || mixedCaseQuoted)
return dbName.equals(metaName);
else if (lowerCaseQuoted)
return dbName.equals(metaName.toLowerCase());
else if (upperCaseQuoted)
return dbName.equals(metaName.toUpperCase());
else
return dbName.equalsIgnoreCase(metaName);
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} else {
if (supportsMixedCaseUnquotedIdentifier)
return dbName.equalsIgnoreCase(metaName);
else if (lowerCaseUnquoted)
return dbName.equals(metaName.toLowerCase());
else if (upperCaseUnquoted)
return dbName.equals(metaName.toUpperCase());
else
return dbName.equalsIgnoreCase(metaName);
@Override
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public void setFetchSize(final int size) {
supportsFetchSize = true;
fetchSize = (size > 0) ? size : IGNORE_FETCH_SIZE;
}