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/*
 * Copyright (c) 2003, PostgreSQL Global Development Group
 * See the LICENSE file in the project root for more information.
 */

package com.amazon.redshift.largeobject;

import com.amazon.redshift.core.BaseConnection;
import com.amazon.redshift.fastpath.Fastpath;
import com.amazon.redshift.fastpath.FastpathArg;
import com.amazon.redshift.util.RedshiftException;
import com.amazon.redshift.util.RedshiftState;

import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.sql.SQLException;

/**
 * 

This class provides the basic methods required to run the interface, plus a pair of methods that * provide InputStream and OutputStream classes for this object.

* *

Normally, client code would use the getAsciiStream, getBinaryStream, or getUnicodeStream methods * in ResultSet, or setAsciiStream, setBinaryStream, or setUnicodeStream methods in * PreparedStatement to access Large Objects.

* *

However, sometimes lower level access to Large Objects are required, that are not supported by * the JDBC specification.

* *

Refer to com.amazon.redshift.largeobject.LargeObjectManager on how to gain access to a Large Object, * or how to create one.

* * @see com.amazon.redshift.largeobject.LargeObjectManager * @see java.sql.ResultSet#getAsciiStream * @see java.sql.ResultSet#getBinaryStream * @see java.sql.ResultSet#getUnicodeStream * @see java.sql.PreparedStatement#setAsciiStream * @see java.sql.PreparedStatement#setBinaryStream * @see java.sql.PreparedStatement#setUnicodeStream */ public class LargeObject //JCP! if mvn.project.property.redshift.jdbc.spec >= "JDBC4.1" implements AutoCloseable //JCP! endif /* hi, checkstyle */ { /** * Indicates a seek from the beginning of a file. */ public static final int SEEK_SET = 0; /** * Indicates a seek from the current position. */ public static final int SEEK_CUR = 1; /** * Indicates a seek from the end of a file. */ public static final int SEEK_END = 2; private final Fastpath fp; // Fastpath API to use private final long oid; // OID of this object private final int mode; // read/write mode of this object private final int fd; // the descriptor of the open large object private BlobOutputStream os; // The current output stream private boolean closed = false; // true when we are closed private BaseConnection conn; // Only initialized when open a LOB with CommitOnClose private boolean commitOnClose; // Only initialized when open a LOB with CommitOnClose /** *

This opens a large object.

* *

If the object does not exist, then an SQLException is thrown.

* * @param fp FastPath API for the connection to use * @param oid of the Large Object to open * @param mode Mode of opening the large object * @param conn the connection to the database used to access this LOB * @param commitOnClose commit the transaction when this LOB will be closed (defined in * LargeObjectManager) * @throws SQLException if a database-access error occurs. * @see com.amazon.redshift.largeobject.LargeObjectManager */ protected LargeObject(Fastpath fp, long oid, int mode, BaseConnection conn, boolean commitOnClose) throws SQLException { this.fp = fp; this.oid = oid; this.mode = mode; if (commitOnClose) { this.commitOnClose = true; this.conn = conn; } else { this.commitOnClose = false; } FastpathArg[] args = new FastpathArg[2]; args[0] = Fastpath.createOIDArg(oid); args[1] = new FastpathArg(mode); this.fd = fp.getInteger("lo_open", args); } /** *

This opens a large object.

* *

If the object does not exist, then an SQLException is thrown.

* * @param fp FastPath API for the connection to use * @param oid of the Large Object to open * @param mode Mode of opening the large object (defined in LargeObjectManager) * @throws SQLException if a database-access error occurs. * @see com.amazon.redshift.largeobject.LargeObjectManager */ protected LargeObject(Fastpath fp, long oid, int mode) throws SQLException { this(fp, oid, mode, null, false); } public LargeObject copy() throws SQLException { return new LargeObject(fp, oid, mode); } /* * Release large object resources during garbage cleanup. * * This code used to call close() however that was problematic because the scope of the fd is a * transaction, thus if commit or rollback was called before garbage collection ran then the call * to close would error out with an invalid large object handle. So this method now does nothing * and lets the server handle cleanup when it ends the transaction. * * protected void finalize() throws SQLException { } */ /** * @return the OID of this LargeObject * @deprecated As of 8.3, replaced by {@link #getLongOID()} */ @Deprecated public int getOID() { return (int) oid; } /** * @return the OID of this LargeObject */ public long getLongOID() { return oid; } /** * This method closes the object. You must not call methods in this object after this is called. * * @throws SQLException if a database-access error occurs. */ public void close() throws SQLException { if (!closed) { // flush any open output streams if (os != null) { try { // we can't call os.close() otherwise we go into an infinite loop! os.flush(); } catch (IOException ioe) { throw new RedshiftException("Exception flushing output stream", RedshiftState.DATA_ERROR, ioe); } finally { os = null; } } // finally close FastpathArg[] args = new FastpathArg[1]; args[0] = new FastpathArg(fd); fp.fastpath("lo_close", args); // true here as we dont care!! closed = true; if (this.commitOnClose) { this.conn.commit(); } } } /** * Reads some data from the object, and return as a byte[] array. * * @param len number of bytes to read * @return byte[] array containing data read * @throws SQLException if a database-access error occurs. */ public byte[] read(int len) throws SQLException { // This is the original method, where the entire block (len bytes) // is retrieved in one go. FastpathArg[] args = new FastpathArg[2]; args[0] = new FastpathArg(fd); args[1] = new FastpathArg(len); return fp.getData("loread", args); } /** * Reads some data from the object into an existing array. * * @param buf destination array * @param off offset within array * @param len number of bytes to read * @return the number of bytes actually read * @throws SQLException if a database-access error occurs. */ public int read(byte[] buf, int off, int len) throws SQLException { byte[] b = read(len); if (b.length < len) { len = b.length; } System.arraycopy(b, 0, buf, off, len); return len; } /** * Writes an array to the object. * * @param buf array to write * @throws SQLException if a database-access error occurs. */ public void write(byte[] buf) throws SQLException { FastpathArg[] args = new FastpathArg[2]; args[0] = new FastpathArg(fd); args[1] = new FastpathArg(buf); fp.fastpath("lowrite", args); } /** * Writes some data from an array to the object. * * @param buf destination array * @param off offset within array * @param len number of bytes to write * @throws SQLException if a database-access error occurs. */ public void write(byte[] buf, int off, int len) throws SQLException { FastpathArg[] args = new FastpathArg[2]; args[0] = new FastpathArg(fd); args[1] = new FastpathArg(buf, off, len); fp.fastpath("lowrite", args); } /** *

Sets the current position within the object.

* *

This is similar to the fseek() call in the standard C library. It allows you to have random * access to the large object.

* * @param pos position within object * @param ref Either SEEK_SET, SEEK_CUR or SEEK_END * @throws SQLException if a database-access error occurs. */ public void seek(int pos, int ref) throws SQLException { FastpathArg[] args = new FastpathArg[3]; args[0] = new FastpathArg(fd); args[1] = new FastpathArg(pos); args[2] = new FastpathArg(ref); fp.fastpath("lo_lseek", args); } /** * Sets the current position within the object using 64-bit value (9.3+). * * @param pos position within object * @param ref Either SEEK_SET, SEEK_CUR or SEEK_END * @throws SQLException if a database-access error occurs. */ public void seek64(long pos, int ref) throws SQLException { FastpathArg[] args = new FastpathArg[3]; args[0] = new FastpathArg(fd); args[1] = new FastpathArg(pos); args[2] = new FastpathArg(ref); fp.fastpath("lo_lseek64", args); } /** *

Sets the current position within the object.

* *

This is similar to the fseek() call in the standard C library. It allows you to have random * access to the large object.

* * @param pos position within object from beginning * @throws SQLException if a database-access error occurs. */ public void seek(int pos) throws SQLException { seek(pos, SEEK_SET); } /** * @return the current position within the object * @throws SQLException if a database-access error occurs. */ public int tell() throws SQLException { FastpathArg[] args = new FastpathArg[1]; args[0] = new FastpathArg(fd); return fp.getInteger("lo_tell", args); } /** * @return the current position within the object * @throws SQLException if a database-access error occurs. */ public long tell64() throws SQLException { FastpathArg[] args = new FastpathArg[1]; args[0] = new FastpathArg(fd); return fp.getLong("lo_tell64", args); } /** *

This method is inefficient, as the only way to find out the size of the object is to seek to * the end, record the current position, then return to the original position.

* *

A better method will be found in the future.

* * @return the size of the large object * @throws SQLException if a database-access error occurs. */ public int size() throws SQLException { int cp = tell(); seek(0, SEEK_END); int sz = tell(); seek(cp, SEEK_SET); return sz; } /** * See #size() for information about efficiency. * * @return the size of the large object * @throws SQLException if a database-access error occurs. */ public long size64() throws SQLException { long cp = tell64(); seek64(0, SEEK_END); long sz = tell64(); seek64(cp, SEEK_SET); return sz; } /** * Truncates the large object to the given length in bytes. If the number of bytes is larger than * the current large object length, the large object will be filled with zero bytes. This method * does not modify the current file offset. * * @param len given length in bytes * @throws SQLException if something goes wrong */ public void truncate(int len) throws SQLException { FastpathArg[] args = new FastpathArg[2]; args[0] = new FastpathArg(fd); args[1] = new FastpathArg(len); fp.getInteger("lo_truncate", args); } /** * Truncates the large object to the given length in bytes. If the number of bytes is larger than * the current large object length, the large object will be filled with zero bytes. This method * does not modify the current file offset. * * @param len given length in bytes * @throws SQLException if something goes wrong */ public void truncate64(long len) throws SQLException { FastpathArg[] args = new FastpathArg[2]; args[0] = new FastpathArg(fd); args[1] = new FastpathArg(len); fp.getInteger("lo_truncate64", args); } /** *

Returns an {@link InputStream} from this object.

* *

This {@link InputStream} can then be used in any method that requires an InputStream.

* * @return {@link InputStream} from this object * @throws SQLException if a database-access error occurs. */ public InputStream getInputStream() throws SQLException { return new BlobInputStream(this, 4096); } /** * Returns an {@link InputStream} from this object, that will limit the amount of data that is * visible. * * @param limit maximum number of bytes the resulting stream will serve * @return {@link InputStream} from this object * @throws SQLException if a database-access error occurs. */ public InputStream getInputStream(long limit) throws SQLException { return new BlobInputStream(this, 4096, limit); } /** *

Returns an {@link OutputStream} to this object.

* *

This OutputStream can then be used in any method that requires an OutputStream.

* * @return {@link OutputStream} from this object * @throws SQLException if a database-access error occurs. */ public OutputStream getOutputStream() throws SQLException { if (os == null) { os = new BlobOutputStream(this, 4096); } return os; } }




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