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The KSC SDK for Java - Core module holds the classes that is used by the individual service clients to interact with KSC Web Services. Users need to depend on KSC-java-sdk artifact for accessing individual client classes.

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/*
 * Copyright 2014-2016 ksyun.com, Inc. or its affiliates. All Rights Reserved.
 *
 * Portions copyright 2006-2009 James Murty. Please see LICENSE.txt
 * for applicable license terms and NOTICE.txt for applicable notices.
 *
 * Licensed under the Apache License, Version 2.0 (the "License").
 * You may not use this file except in compliance with the License.
 * A copy of the License is located at
 *
 *  http://ksyun.com/apache2.0
 *
 * or in the "license" file accompanying this file. This file is distributed
 * on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either
 * express or implied. See the License for the specific language governing
 * permissions and limitations under the License.
 */
package com.ksc.internal;

import java.io.File;
import java.io.FileInputStream;
import java.io.IOException;
import java.nio.channels.FileChannel;

import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.http.annotation.NotThreadSafe;

import com.ksc.KscClientException;

/**
 * A mark-and-resettable input stream that can be used on files or file input
 * streams.
 * 
 * In particular, a {@link ResettableInputStream} allows the close operation to
 * be disabled via {@link #disableClose()} (to avoid accidentally being closed).
 * This is necessary when such input stream needs to be marked-and-reset
 * multiple times but only as long as the stream has not been closed.
 * 

* The creator of this input stream should therefore always call * {@link #release()} in a finally block to truly release the underlying * resources. * * @see Releasable */ @NotThreadSafe public class ResettableInputStream extends ReleasableInputStream { private static final Log log = LogFactory .getLog(ResettableInputStream.class); private final File file; // null if the file is not known private FileInputStream fis; // never null private FileChannel fileChannel; // never null /** * Marked position of the file; default to zero. */ private long markPos; /** * @param file * must not be null. Upon successful construction the the file * will be opened with an input stream automatically marked at * the starting position of the given file. *

* Note the creation of a {@link ResettableInputStream} would * entail physically opening a file. If the opened file is meant * to be closed only (in a finally block) by the very same code * block that created it, then it is necessary that the release * method must not be called while the execution is made in other * stack frames. * * In such case, as other stack frames may inadvertently or * indirectly call the close method of the stream, the creator of * the stream would need to explicitly disable the accidental * closing via {@link ResettableInputStream#disableClose()}, so * that the release method becomes the only way to truly close * the opened file. */ public ResettableInputStream(File file) throws IOException { this(new FileInputStream(file), file); } /** * @param fis * file input stream; must not be null. Upon successful * construction the input stream will be automatically marked at * the current position of the given file input stream. *

* Note the creation of a {@link ResettableInputStream} would entail * physically opening a file. If the opened file is meant to be closed only * (in a finally block) by the very same code block that created it, then it * is necessary that the release method must not be called while the * execution is made in other stack frames. * * In such case, as other stack frames may inadvertently or indirectly call * the close method of the stream, the creator of the stream would need to * explicitly disable the accidental closing via * {@link ResettableInputStream#disableClose()}, so that the release method * becomes the only way to truly close the opened file. */ public ResettableInputStream(FileInputStream fis) throws IOException { this(fis, null); } /** * @param file * can be null if not known */ private ResettableInputStream(FileInputStream fis, File file) throws IOException { super(fis); this.file = file; this.fis = fis; this.fileChannel = fis.getChannel(); this.markPos = fileChannel.position(); } @Override public final boolean markSupported() { return true; } /** * Marks the current position in this input stream. A subsequent call to * the reset method repositions this stream at the last marked * position so that subsequent reads re-read the same bytes. * This method works as long as the underlying file has not been closed. *

* Note the creation of a {@link ResettableInputStream} would entail * physically opening a file. If the opened file is meant to be closed only * (in a finally block) by the very same code block that created it, then it * is necessary that the release method must not be called while the * execution is made in other stack frames. * * In such case, as other stack frames may inadvertently or indirectly call * the close method of the stream, the creator of the stream would need to * explicitly disable the accidental closing via * {@link ResettableInputStream#disableClose()}, so that the release method * becomes the only way to truly close the opened file. * * @param _ * ignored */ @Override public void mark(int _) { abortIfNeeded(); try { markPos = fileChannel.position(); } catch (IOException e) { throw new KscClientException("Failed to mark the file position", e); } if (log.isTraceEnabled()) log.trace("File input stream marked at position " + markPos); } /** * Repositions this stream to the position at the time the * mark method was last called on this input stream. * This method works as long as the underlying file has not been closed. *

* Note the creation of a {@link ResettableInputStream} would entail * physically opening a file. If the opened file is meant to be closed only * (in a finally block) by the very same code block that created it, then it * is necessary that the release method must not be called while the * execution is made in other stack frames. * * In such case, as other stack frames may inadvertently or indirectly call * the close method of the stream, the creator of the stream would need to * explicitly disable the accidental closing via * {@link ResettableInputStream#disableClose()}, so that the release method * becomes the only way to truly close the opened file. */ @Override public void reset() throws IOException { abortIfNeeded(); fileChannel.position(markPos); if (log.isTraceEnabled()) log.trace("Reset to position " + markPos); } @Override public int available() throws IOException { abortIfNeeded(); return fis.available(); } @Override public int read() throws IOException { abortIfNeeded(); return fis.read(); } @Override public long skip(long n) throws IOException { abortIfNeeded(); return fis.skip(n); } @Override public int read(byte[] arg0, int arg1, int arg2) throws IOException { abortIfNeeded(); return fis.read(arg0, arg1, arg2); } /** * Returns the underlying file, if known; or null if not; */ public File getFile() { return file; } /** * Convenient factory method to construct a new resettable input stream for * the given file, converting any IOException into AmazonClientException. *

* Note the creation of a {@link ResettableInputStream} would entail * physically opening a file. If the opened file is meant to be closed only * (in a finally block) by the very same code block that created it, then it * is necessary that the release method must not be called while the * execution is made in other stack frames. * * In such case, as other stack frames may inadvertently or indirectly call * the close method of the stream, the creator of the stream would need to * explicitly disable the accidental closing via * {@link ResettableInputStream#disableClose()}, so that the release method * becomes the only way to truly close the opened file. */ public static ResettableInputStream newResettableInputStream(File file) { return newResettableInputStream(file, null); } /** * Convenient factory method to construct a new resettable input stream for * the given file, converting any IOException into AmazonClientException * with the given error message. *

* Note the creation of a {@link ResettableInputStream} would entail * physically opening a file. If the opened file is meant to be closed only * (in a finally block) by the very same code block that created it, then it * is necessary that the release method must not be called while the * execution is made in other stack frames. * * In such case, as other stack frames may inadvertently or indirectly call * the close method of the stream, the creator of the stream would need to * explicitly disable the accidental closing via * {@link ResettableInputStream#disableClose()}, so that the release method * becomes the only way to truly close the opened file. */ public static ResettableInputStream newResettableInputStream(File file, String errmsg) { try { return new ResettableInputStream(file); } catch (IOException e) { throw errmsg == null ? new KscClientException(e) : new KscClientException(errmsg, e); } } /** * Convenient factory method to construct a new resettable input stream for * the given file input stream, converting any IOException into * AmazonClientException. *

* Note the creation of a {@link ResettableInputStream} would entail * physically opening a file. If the opened file is meant to be closed only * (in a finally block) by the very same code block that created it, then it * is necessary that the release method must not be called while the * execution is made in other stack frames. * * In such case, as other stack frames may inadvertently or indirectly call * the close method of the stream, the creator of the stream would need to * explicitly disable the accidental closing via * {@link ResettableInputStream#disableClose()}, so that the release method * becomes the only way to truly close the opened file. */ public static ResettableInputStream newResettableInputStream( FileInputStream fis) { return newResettableInputStream(fis, null); } /** * Convenient factory method to construct a new resettable input stream for * the given file input stream, converting any IOException into * AmazonClientException with the given error message. *

* Note the creation of a {@link ResettableInputStream} would entail * physically opening a file. If the opened file is meant to be closed only * (in a finally block) by the very same code block that created it, then it * is necessary that the release method must not be called while the * execution is made in other stack frames. * * In such case, as other stack frames may inadvertently or indirectly call * the close method of the stream, the creator of the stream would need to * explicitly disable the accidental closing via * {@link ResettableInputStream#disableClose()}, so that the release method * becomes the only way to truly close the opened file. */ public static ResettableInputStream newResettableInputStream( FileInputStream fis, String errmsg) { try { return new ResettableInputStream(fis); } catch (IOException e) { throw new KscClientException(errmsg, e); } } }





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