8232860: Error formatting integer values with MessageFormat.format() using HOST provider
Reviewed-by: rriggs
/**
* Copyright (c) 2000, 2019, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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/**
* Provides the API for server side data source access and processing from
* the Java™ programming language.
* This package supplements the <code>java.sql</code>
* package and, as of the version 1.4 release, is included in the
* Java Platform, Standard Edition (Java SE™).
* It remains an essential part of the Java Platform, Enterprise Edition
* (Java EE™).
* <p>
* The <code>javax.sql</code> package provides for the following:
* <OL>
* <LI>The <code>DataSource</code> interface as an alternative to the
* <code>DriverManager</code> for establishing a
* connection with a data source
* <LI>Connection pooling and Statement pooling
* <LI>Distributed transactions
* <LI>Rowsets
* </OL>
* <p>
* Applications use the <code>DataSource</code> and <code>RowSet</code>
* APIs directly, but the connection pooling and distributed transaction
* APIs are used internally by the middle-tier infrastructure.
*
* <H2>Using a <code>DataSource</code> Object to Make a Connection</H2>
* <p>
* The <code>javax.sql</code> package provides the preferred
* way to make a connection with a data source. The <code>DriverManager</code>
* class, the original mechanism, is still valid, and code using it will
* continue to run. However, the newer <code>DataSource</code> mechanism
* is preferred because it offers many advantages over the
* <code>DriverManager</code> mechanism.
* <p>
* These are the main advantages of using a <code>DataSource</code> object to
* make a connection:
* <UL>
*
* <LI>Changes can be made to a data source's properties, which means
* that it is not necessary to make changes in application code when
* something about the data source or driver changes.
* <LI>Connection and Statement pooling and distributed transactions are available
* through a <code>DataSource</code> object that is
* implemented to work with the middle-tier infrastructure.
* Connections made through the <code>DriverManager</code>
* do not have connection and statement pooling or distributed transaction
* capabilities.
* </UL>
* <p>
* Driver vendors provide <code>DataSource</code> implementations. A
* particular <code>DataSource</code> object represents a particular
* physical data source, and each connection the <code>DataSource</code> object
* creates is a connection to that physical data source.
* <p>
* A logical name for the data source is registered with a naming service that
* uses the Java Naming and Directory Interface™
* (JNDI) API, usually by a system administrator or someone performing the
* duties of a system administrator. An application can retrieve the
* <code>DataSource</code> object it wants by doing a lookup on the logical
* name that has been registered for it. The application can then use the
* <code>DataSource</code> object to create a connection to the physical data
* source it represents.
* <p>
* A <code>DataSource</code> object can be implemented to work with the
* middle tier infrastructure so that the connections it produces will be
* pooled for reuse. An application that uses such a <code>DataSource</code>
* implementation will automatically get a connection that participates in
* connection pooling.
* A <code>DataSource</code> object can also be implemented to work with the
* middle tier infrastructure so that the connections it produces can be
* used for distributed transactions without any special coding.
*
* <H2>Connection Pooling and Statement Pooling</H2>
* <p>
* Connections made via a <code>DataSource</code>
* object that is implemented to work with a middle tier connection pool manager
* will participate in connection pooling. This can improve performance
* dramatically because creating new connections is very expensive.
* Connection pooling allows a connection to be used and reused,
* thus cutting down substantially on the number of new connections
* that need to be created.
* <p>
* Connection pooling is totally transparent. It is done automatically
* in the middle tier of a Java EE configuration, so from an application's
* viewpoint, no change in code is required. An application simply uses
* the <code>DataSource.getConnection</code> method to get the pooled
* connection and uses it the same way it uses any <code>Connection</code>
* object.
* <p>
* The classes and interfaces used for connection pooling are:
* <UL>
* <LI><code>ConnectionPoolDataSource</code>
* <LI><code>PooledConnection</code>
* <LI><code>ConnectionEvent</code>
* <LI><code>ConnectionEventListener</code>
* <LI><code>StatementEvent</code>
* <LI><code>StatementEventListener</code>
* </UL>
* The connection pool manager, a facility in the middle tier of
* a three-tier architecture, uses these classes and interfaces
* behind the scenes. When a <code>ConnectionPoolDataSource</code> object
* is called on to create a <code>PooledConnection</code> object, the
* connection pool manager will register as a <code>ConnectionEventListener</code>
* object with the new <code>PooledConnection</code> object. When the connection
* is closed or there is an error, the connection pool manager (being a listener)
* gets a notification that includes a <code>ConnectionEvent</code> object.
* <p>
* If the connection pool manager supports <code>Statement</code> pooling, for
* <code>PreparedStatements</code>, which can be determined by invoking the method
* <code>DatabaseMetaData.supportsStatementPooling</code>, the
* connection pool manager will register as a <code>StatementEventListener</code>
* object with the new <code>PooledConnection</code> object. When the
* <code>PreparedStatement</code> is closed or there is an error, the connection
* pool manager (being a listener)
* gets a notification that includes a <code>StatementEvent</code> object.
*
* <H2>Distributed Transactions</H2>
* <p>
* As with pooled connections, connections made via a <code>DataSource</code>
* object that is implemented to work with the middle tier infrastructure
* may participate in distributed transactions. This gives an application
* the ability to involve data sources on multiple servers in a single
* transaction.
* <p>
* The classes and interfaces used for distributed transactions are:
* <UL>
* <LI><code>XADataSource</code>
* <LI><code>XAConnection</code>
* </UL>
* These interfaces are used by the transaction manager; an application does
* not use them directly.
* <p>
* The <code>XAConnection</code> interface is derived from the
* <code>PooledConnection</code> interface, so what applies to a pooled connection
* also applies to a connection that is part of a distributed transaction.
* A transaction manager in the middle tier handles everything transparently.
* The only change in application code is that an application cannot do anything
* that would interfere with the transaction manager's handling of the transaction.
* Specifically, an application cannot call the methods <code>Connection.commit</code>
* or <code>Connection.rollback</code>, and it cannot set the connection to be in
* auto-commit mode (that is, it cannot call
* <code>Connection.setAutoCommit(true)</code>).
* <p>
* An application does not need to do anything special to participate in a
* distributed transaction.
* It simply creates connections to the data sources it wants to use via
* the <code>DataSource.getConnection</code> method, just as it normally does.
* The transaction manager manages the transaction behind the scenes. The
* <code>XADataSource</code> interface creates <code>XAConnection</code> objects, and
* each <code>XAConnection</code> object creates an <code>XAResource</code> object
* that the transaction manager uses to manage the connection.
*
*
* <H2>Rowsets</H2>
* The <code>RowSet</code> interface works with various other classes and
* interfaces behind the scenes. These can be grouped into three categories.
* <OL>
* <LI>Event Notification
* <UL>
* <LI><code>RowSetListener</code><br>
* A <code>RowSet</code> object is a JavaBeans™
* component because it has properties and participates in the JavaBeans
* event notification mechanism. The <code>RowSetListener</code> interface
* is implemented by a component that wants to be notified about events that
* occur to a particular <code>RowSet</code> object. Such a component registers
* itself as a listener with a rowset via the <code>RowSet.addRowSetListener</code>
* method.
* <p>
* When the <code>RowSet</code> object changes one of its rows, changes all of
* it rows, or moves its cursor, it also notifies each listener that is registered
* with it. The listener reacts by carrying out its implementation of the
* notification method called on it.
* <LI><code>RowSetEvent</code><br>
* As part of its internal notification process, a <code>RowSet</code> object
* creates an instance of <code>RowSetEvent</code> and passes it to the listener.
* The listener can use this <code>RowSetEvent</code> object to find out which rowset
* had the event.
* </UL>
* <LI>Metadata
* <UL>
* <LI><code>RowSetMetaData</code><br>
* This interface, derived from the
* <code>ResultSetMetaData</code> interface, provides information about
* the columns in a <code>RowSet</code> object. An application can use
* <code>RowSetMetaData</code> methods to find out how many columns the
* rowset contains and what kind of data each column can contain.
* <p>
* The <code>RowSetMetaData</code> interface provides methods for
* setting the information about columns, but an application would not
* normally use these methods. When an application calls the <code>RowSet</code>
* method <code>execute</code>, the <code>RowSet</code> object will contain
* a new set of rows, and its <code>RowSetMetaData</code> object will have been
* internally updated to contain information about the new columns.
* </UL>
* <LI>The Reader/Writer Facility<br>
* A <code>RowSet</code> object that implements the <code>RowSetInternal</code>
* interface can call on the <code>RowSetReader</code> object associated with it
* to populate itself with data. It can also call on the <code>RowSetWriter</code>
* object associated with it to write any changes to its rows back to the
* data source from which it originally got the rows.
* A rowset that remains connected to its data source does not need to use a
* reader and writer because it can simply operate on the data source directly.
*
* <UL>
* <LI><code>RowSetInternal</code><br>
* By implementing the <code>RowSetInternal</code> interface, a
* <code>RowSet</code> object gets access to
* its internal state and is able to call on its reader and writer. A rowset
* keeps track of the values in its current rows and of the values that immediately
* preceded the current ones, referred to as the <i>original</i> values. A rowset
* also keeps track of (1) the parameters that have been set for its command and
* (2) the connection that was passed to it, if any. A rowset uses the
* <code>RowSetInternal</code> methods behind the scenes to get access to
* this information. An application does not normally invoke these methods directly.
*
* <LI><code>RowSetReader</code><br>
* A disconnected <code>RowSet</code> object that has implemented the
* <code>RowSetInternal</code> interface can call on its reader (the
* <code>RowSetReader</code> object associated with it) to populate it with
* data. When an application calls the <code>RowSet.execute</code> method,
* that method calls on the rowset's reader to do much of the work. Implementations
* can vary widely, but generally a reader makes a connection to the data source,
* reads data from the data source and populates the rowset with it, and closes
* the connection. A reader may also update the <code>RowSetMetaData</code> object
* for its rowset. The rowset's internal state is also updated, either by the
* reader or directly by the method <code>RowSet.execute</code>.
*
*
* <LI><code>RowSetWriter</code><br>
* A disconnected <code>RowSet</code> object that has implemented the
* <code>RowSetInternal</code> interface can call on its writer (the
* <code>RowSetWriter</code> object associated with it) to write changes
* back to the underlying data source. Implementations may vary widely, but
* generally, a writer will do the following:
*
* <UL>
* <LI>Make a connection to the data source
* <LI>Check to see whether there is a conflict, that is, whether
* a value that has been changed in the rowset has also been changed
* in the data source
* <LI>Write the new values to the data source if there is no conflict
* <LI>Close the connection
* </UL>
*
*
* </UL>
* </OL>
* <p>
* The <code>RowSet</code> interface may be implemented in any number of
* ways, and anyone may write an implementation. Developers are encouraged
* to use their imaginations in coming up with new ways to use rowsets.
*
*
* <h2>Package Specification</h2>
*
* <ul>
* <li><a href="https://jcp.org/en/jsr/detail?id=221">JDBC 4.3 Specification</a>
* </ul>
*
* <h2>Related Documentation</h2>
* <p>
* The Java Series book published by Addison-Wesley Longman provides detailed
* information about the classes and interfaces in the <code>javax.sql</code>
* package:
*
* <ul>
* <li>“<i>JDBC™API Tutorial and Reference, Third Edition</i>”
* </ul>
*/
package javax.sql;