/* Copyright (C) 2002-2004 MySQL AB This program is free software; you can redistribute it and/or modify it under the terms of version 2 of the GNU General Public License as published by the Free Software Foundation. There are special exceptions to the terms and conditions of the GPL as it is applied to this software. View the full text of the exception in file EXCEPTIONS-CONNECTOR-J in the directory of this software distribution. This program 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 for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ package com.mysql.jdbc; import java.io.UnsupportedEncodingException; import java.nio.ByteBuffer; import java.sql.SQLException; /** * Buffer contains code to read and write packets from/to the MySQL server. * * @version $Id: ByteArrayBuffer.java,v 1.1.2.19 2004/10/21 19:52:36 mmatthew Exp $ * @author Mark Matthews */ class ByteArrayBuffer extends Buffer { private byte[] byteBuffer; private int bufLength = 0; private int position = 0; ByteArrayBuffer(byte[] buf) { this.byteBuffer = buf; setBufLength(buf.length); } ByteArrayBuffer(int size) { this.byteBuffer = new byte[size]; setBufLength(this.byteBuffer.length); this.position = MysqlIO.HEADER_LENGTH; } public ByteBuffer getNioBuffer() { throw new IllegalArgumentException(Messages.getString("ByteArrayBuffer.0")); //$NON-NLS-1$ } /** * Sets the array of bytes to use as a buffer to read from. * * @param byteBuffer the array of bytes to use as a buffer */ public void setByteBuffer(byte[] byteBufferToSet) { this.byteBuffer = byteBufferToSet; } /** * Returns the array of bytes this Buffer is using to read from. * * @return byte array being read from */ public byte[] getByteBuffer() { return this.byteBuffer; } /** * Set the current position to write to/ read from * * @param position the position (0-based index) */ public void setPosition(int positionToSet) { this.position = positionToSet; } /** * Returns the current position to write to/ read from * * @return the current position to write to/ read from */ public int getPosition() { return this.position; } /** * Skip over a length-encoded string * * @return The position past the end of the string */ public int fastSkipLenString() { long len = this.readFieldLength(); this.position += len; return (int) len; // this is safe, as this is only } protected final byte[] getBufferSource() { return this.byteBuffer; } final byte[] getBytes(int len) { byte[] b = new byte[len]; System.arraycopy(this.byteBuffer, this.position, b, 0, len); this.position += len; // update cursor return b; } // 2000-06-05 Changed final boolean isLastDataPacket() { return ((getBufLength() < 9) && ((this.byteBuffer[0] & 0xff) == 254)); } final void clear() { this.position = MysqlIO.HEADER_LENGTH; } final void ensureCapacity(int additionalData) throws SQLException { if ((this.position + additionalData) > getBufLength()) { if ((this.position + additionalData) < this.byteBuffer.length) { // byteBuffer.length is != getBufLength() all of the time // due to re-using of packets (we don't shrink them) // // If we can, don't re-alloc, just set buffer length // to size of current buffer setBufLength(this.byteBuffer.length); } else { // // Otherwise, re-size, and pad so we can avoid // allocing again in the near future // int newLength = (int) (this.byteBuffer.length * 1.25); if (newLength < (this.byteBuffer.length + additionalData)) { newLength = this.byteBuffer.length + (int) (additionalData * 1.25); } if (newLength < this.byteBuffer.length) { newLength = this.byteBuffer.length + additionalData; } byte[] newBytes = new byte[newLength]; System.arraycopy(this.byteBuffer, 0, newBytes, 0, this.byteBuffer.length); this.byteBuffer = newBytes; setBufLength(this.byteBuffer.length); } } } final long newReadLength() { int sw = this.byteBuffer[this.position++] & 0xff; switch (sw) { case 251: return 0; case 252: return readInt(); case 253: return readLongInt(); case 254: // changed for 64 bit lengths return readLongLong(); default: return sw; } } final byte readByte() { return this.byteBuffer[this.position++]; } final byte readByte(int readAt) { return this.byteBuffer[readAt]; } final long readFieldLength() { int sw = this.byteBuffer[this.position++] & 0xff; switch (sw) { case 251: return NULL_LENGTH; case 252: return readInt(); case 253: return readLongInt(); case 254: return readLongLong(); default: return sw; } } // 2000-06-05 Changed final int readInt() { byte[] b = this.byteBuffer; // a little bit optimization return (b[this.position++] & 0xff) | ((b[this.position++] & 0xff) << 8); } final int readIntAsLong() { byte[] b = this.byteBuffer; return (b[this.position++] & 0xff) | ((b[this.position++] & 0xff) << 8) | ((b[this.position++] & 0xff) << 16) | ((b[this.position++] & 0xff) << 24); } final byte[] readLenByteArray(int offset) { long len = this.readFieldLength(); if (len == NULL_LENGTH) { return null; } if (len == 0) { return Constants.EMPTY_BYTE_ARRAY; } this.position += offset; return getBytes((int) len); } final long readLength() { int sw = this.byteBuffer[this.position++] & 0xff; switch (sw) { case 251: return 0; case 252: return readInt(); case 253: return readLongInt(); case 254: return readLong(); default: return sw; } } // 2000-06-05 Fixed final long readLong() { byte[] b = this.byteBuffer; return (b[this.position++] & 0xff) | ((b[this.position++] & 0xff) << 8) | ((b[this.position++] & 0xff) << 16) | ((b[this.position++] & 0xff) << 24); } // 2000-06-05 Changed final int readLongInt() { byte[] b = this.byteBuffer; return (b[this.position++] & 0xff) | ((b[this.position++] & 0xff) << 8) | ((b[this.position++] & 0xff) << 16); } // 2000-06-05 Fixed final long readLongLong() { byte[] b = this.byteBuffer; return (b[this.position++] & 0xff) | ((long) (b[this.position++] & 0xff) << 8) | ((long) (b[this.position++] & 0xff) << 16) | ((long) (b[this.position++] & 0xff) << 24) | ((long) (b[this.position++] & 0xff) << 32) | ((long) (b[this.position++] & 0xff) << 40) | ((long) (b[this.position++] & 0xff) << 48) | ((long) (b[this.position++] & 0xff) << 56); } // // Read a null-terminated string // // To avoid alloc'ing a new byte array, we // do this by hand, rather than calling getNullTerminatedBytes() // final String readString() { int i = this.position; int len = 0; int maxLen = getBufLength(); while ((i < maxLen) && (this.byteBuffer[i] != 0)) { len++; i++; } String s = new String(this.byteBuffer, this.position, len); this.position += (len + 1); // update cursor return s; } final String readString(String encoding) throws SQLException { int i = this.position; int len = 0; int maxLen = getBufLength(); while ((i < maxLen) && (this.byteBuffer[i] != 0)) { len++; i++; } try { return new String(this.byteBuffer, this.position, len, encoding); } catch (UnsupportedEncodingException uEE) { throw new SQLException(Messages.getString("ByteArrayBuffer.1") //$NON-NLS-1$ + encoding + "'", SQLError.SQL_STATE_ILLEGAL_ARGUMENT); //$NON-NLS-1$ } finally { this.position += (len + 1); // update cursor } } final int readnBytes() { int sw = this.byteBuffer[this.position++] & 0xff; switch (sw) { case 1: return this.byteBuffer[this.position++] & 0xff; case 2: return this.readInt(); case 3: return this.readLongInt(); case 4: return (int) this.readLong(); default: return 255; } } final void writeByte(byte b) throws SQLException { ensureCapacity(1); this.byteBuffer[this.position++] = b; } // Write a byte array final void writeBytesNoNull(byte[] bytes) throws SQLException { int len = bytes.length; ensureCapacity(len); System.arraycopy(bytes, 0, this.byteBuffer, this.position, len); this.position += len; } // Write a byte array with the given offset and length final void writeBytesNoNull(byte[] bytes, int offset, int length) throws SQLException { ensureCapacity(length); System.arraycopy(bytes, offset, this.byteBuffer, this.position, length); this.position += length; } final void writeDouble(double d) throws SQLException { long l = Double.doubleToLongBits(d); writeLongLong(l); } final void writeFieldLength(long length) throws SQLException { if (length < 251) { writeByte((byte) length); } else if (length < 65536L) { ensureCapacity(3); writeByte((byte) 252); writeInt((int) length); } else if (length < 16777216L) { ensureCapacity(4); writeByte((byte) 253); writeLongInt((int) length); } else { ensureCapacity(9); writeByte((byte) 254); writeLongLong(length); } } final void writeFloat(float f) throws SQLException { ensureCapacity(4); int i = Float.floatToIntBits(f); byte[] b = this.byteBuffer; b[this.position++] = (byte) (i & 0xff); b[this.position++] = (byte) (i >>> 8); b[this.position++] = (byte) (i >>> 16); b[this.position++] = (byte) (i >>> 24); } // 2000-06-05 Changed final void writeInt(int i) throws SQLException { ensureCapacity(2); byte[] b = this.byteBuffer; b[this.position++] = (byte) (i & 0xff); b[this.position++] = (byte) (i >>> 8); } // Write a String using the specified character // encoding final void writeLenBytes(byte[] b) throws SQLException { int len = b.length; ensureCapacity(len + 9); writeFieldLength(len); System.arraycopy(b, 0, this.byteBuffer, this.position, len); this.position += len; } // Write a String using the specified character // encoding final void writeLenString(String s, String encoding, String serverEncoding, SingleByteCharsetConverter converter, boolean parserKnowsUnicode) throws UnsupportedEncodingException, SQLException { byte[] b = null; if (converter != null) { b = converter.toBytes(s); } else { b = StringUtils.getBytes(s, encoding, serverEncoding, parserKnowsUnicode); } int len = b.length; ensureCapacity(len + 9); writeFieldLength(len); System.arraycopy(b, 0, this.byteBuffer, this.position, len); this.position += len; } // 2000-06-05 Changed final void writeLong(long i) throws SQLException { ensureCapacity(4); byte[] b = this.byteBuffer; b[this.position++] = (byte) (i & 0xff); b[this.position++] = (byte) (i >>> 8); b[this.position++] = (byte) (i >>> 16); b[this.position++] = (byte) (i >>> 24); } // 2000-06-05 Changed final void writeLongInt(int i) throws SQLException { ensureCapacity(3); byte[] b = this.byteBuffer; b[this.position++] = (byte) (i & 0xff); b[this.position++] = (byte) (i >>> 8); b[this.position++] = (byte) (i >>> 16); } final void writeLongLong(long i) throws SQLException { ensureCapacity(8); byte[] b = this.byteBuffer; b[this.position++] = (byte) (i & 0xff); b[this.position++] = (byte) (i >>> 8); b[this.position++] = (byte) (i >>> 16); b[this.position++] = (byte) (i >>> 24); b[this.position++] = (byte) (i >>> 32); b[this.position++] = (byte) (i >>> 40); b[this.position++] = (byte) (i >>> 48); b[this.position++] = (byte) (i >>> 56); } // Write null-terminated string final void writeString(String s) throws SQLException { ensureCapacity((s.length() * 2) + 1); writeStringNoNull(s); this.byteBuffer[this.position++] = 0; } // Write string, with no termination final void writeStringNoNull(String s) throws SQLException { int len = s.length(); ensureCapacity(len * 2); System.arraycopy(s.getBytes(), 0, this.byteBuffer, this.position, len); this.position += len; // for (int i = 0; i < len; i++) // { // this.byteBuffer[this.position++] = (byte)s.charAt(i); // } } // Write a String using the specified character // encoding final void writeStringNoNull(String s, String encoding, String serverEncoding, boolean parserKnowsUnicode) throws UnsupportedEncodingException, SQLException { byte[] b = StringUtils.getBytes(s, encoding, serverEncoding, parserKnowsUnicode); int len = b.length; ensureCapacity(len); System.arraycopy(b, 0, this.byteBuffer, this.position, len); this.position += len; } void setBufLength(int bufLengthToSet) { this.bufLength = bufLengthToSet; } int getBufLength() { return this.bufLength; } int getCapacity() { return this.byteBuffer.length; } /* (non-Javadoc) * @see com.mysql.jdbc.Buffer#getBytes(int, int) */ byte[] getBytes(int offset, int len) { byte[] dest = new byte[len]; System.arraycopy(this.byteBuffer, offset, dest, 0, len); return dest; } }