/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License 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 org.apache.tomcat.util.buf;
import java.io.IOException;
import java.io.Serializable;
import java.nio.ByteBuffer;
import java.nio.charset.Charset;
import java.util.Locale;
This class is used to represent a subarray of bytes in an HTTP message.
It represents all request/response elements. The byte/char conversions are
delayed and cached. Everything is recyclable.
The object can represent a byte[], a char[], or a (sub) String. All
operations can be made in case sensitive mode or not.
Author: dac@eng.sun.com, James Todd [gonzo@eng.sun.com], Costin Manolache
/**
* This class is used to represent a subarray of bytes in an HTTP message.
* It represents all request/response elements. The byte/char conversions are
* delayed and cached. Everything is recyclable.
*
* The object can represent a byte[], a char[], or a (sub) String. All
* operations can be made in case sensitive mode or not.
*
* @author dac@eng.sun.com
* @author James Todd [gonzo@eng.sun.com]
* @author Costin Manolache
*/
public final class MessageBytes implements Cloneable, Serializable {
private static final long serialVersionUID = 1L;
// primary type ( whatever is set as original value )
private int type = T_NULL;
public static final int T_NULL = 0;
getType() is T_STR if the the object used to create the MessageBytes
was a String /** getType() is T_STR if the the object used to create the MessageBytes
was a String */
public static final int T_STR = 1;
getType() is T_BYTES if the the object used to create the MessageBytes
was a byte[] /** getType() is T_BYTES if the the object used to create the MessageBytes
was a byte[] */
public static final int T_BYTES = 2;
getType() is T_CHARS if the the object used to create the MessageBytes
was a char[] /** getType() is T_CHARS if the the object used to create the MessageBytes
was a char[] */
public static final int T_CHARS = 3;
private int hashCode=0;
// did we compute the hashcode ?
private boolean hasHashCode=false;
// Internal objects to represent array + offset, and specific methods
private final ByteChunk byteC=new ByteChunk();
private final CharChunk charC=new CharChunk();
// String
private String strValue;
// true if a String value was computed. Probably not needed,
// strValue!=null is the same
private boolean hasStrValue=false;
Creates a new, uninitialized MessageBytes object.
Use static newInstance() in order to allow
future hooks.
/**
* Creates a new, uninitialized MessageBytes object.
* Use static newInstance() in order to allow
* future hooks.
*/
private MessageBytes() {
}
Construct a new MessageBytes instance.
Returns: the instance
/**
* Construct a new MessageBytes instance.
* @return the instance
*/
public static MessageBytes newInstance() {
return factory.newInstance();
}
@Override
public Object clone() throws CloneNotSupportedException {
return super.clone();
}
public boolean isNull() {
return byteC.isNull() && charC.isNull() && !hasStrValue;
}
Resets the message bytes to an uninitialized (NULL) state.
/**
* Resets the message bytes to an uninitialized (NULL) state.
*/
public void recycle() {
type=T_NULL;
byteC.recycle();
charC.recycle();
strValue=null;
hasStrValue=false;
hasHashCode=false;
hasLongValue=false;
}
Sets the content to the specified subarray of bytes.
Params: - b – the bytes
- off – the start offset of the bytes
- len – the length of the bytes
/**
* Sets the content to the specified subarray of bytes.
*
* @param b the bytes
* @param off the start offset of the bytes
* @param len the length of the bytes
*/
public void setBytes(byte[] b, int off, int len) {
byteC.setBytes( b, off, len );
type=T_BYTES;
hasStrValue=false;
hasHashCode=false;
hasLongValue=false;
}
Sets the content to be a char[]
Params: - c – the chars
- off – the start offset of the chars
- len – the length of the chars
/**
* Sets the content to be a char[]
*
* @param c the chars
* @param off the start offset of the chars
* @param len the length of the chars
*/
public void setChars( char[] c, int off, int len ) {
charC.setChars( c, off, len );
type=T_CHARS;
hasStrValue=false;
hasHashCode=false;
hasLongValue=false;
}
Set the content to be a string
Params: - s – The string
/**
* Set the content to be a string
* @param s The string
*/
public void setString( String s ) {
strValue=s;
hasHashCode=false;
hasLongValue=false;
if (s == null) {
hasStrValue=false;
type=T_NULL;
} else {
hasStrValue=true;
type=T_STR;
}
}
// -------------------- Conversion and getters --------------------
Compute the string value.
Returns: the string
/**
* Compute the string value.
* @return the string
*/
@Override
public String toString() {
if (hasStrValue) {
return strValue;
}
switch (type) {
case T_CHARS:
strValue = charC.toString();
hasStrValue = true;
return strValue;
case T_BYTES:
strValue = byteC.toString();
hasStrValue = true;
return strValue;
}
return null;
}
//----------------------------------------
Return the type of the original content. Can be
T_STR, T_BYTES, T_CHARS or T_NULL
Returns: the type
/**
* Return the type of the original content. Can be
* T_STR, T_BYTES, T_CHARS or T_NULL
* @return the type
*/
public int getType() {
return type;
}
Returns the byte chunk, representing the byte[] and offset/length.
Valid only if T_BYTES or after a conversion was made.
Returns: the byte chunk
/**
* Returns the byte chunk, representing the byte[] and offset/length.
* Valid only if T_BYTES or after a conversion was made.
* @return the byte chunk
*/
public ByteChunk getByteChunk() {
return byteC;
}
Returns the char chunk, representing the char[] and offset/length.
Valid only if T_CHARS or after a conversion was made.
Returns: the char chunk
/**
* Returns the char chunk, representing the char[] and offset/length.
* Valid only if T_CHARS or after a conversion was made.
* @return the char chunk
*/
public CharChunk getCharChunk() {
return charC;
}
Returns the string value.
Valid only if T_STR or after a conversion was made.
Returns: the string
/**
* Returns the string value.
* Valid only if T_STR or after a conversion was made.
* @return the string
*/
public String getString() {
return strValue;
}
Returns: the Charset used for string<->byte conversions.
/**
* @return the Charset used for string<->byte conversions.
*/
public Charset getCharset() {
return byteC.getCharset();
}
Set the Charset used for string<->byte conversions.
Params: - charset – The charset
/**
* Set the Charset used for string<->byte conversions.
* @param charset The charset
*/
public void setCharset(Charset charset) {
byteC.setCharset(charset);
}
Do a char->byte conversion.
/**
* Do a char->byte conversion.
*/
public void toBytes() {
if (isNull()) {
return;
}
if (!byteC.isNull()) {
type = T_BYTES;
return;
}
toString();
type = T_BYTES;
Charset charset = byteC.getCharset();
ByteBuffer result = charset.encode(strValue);
byteC.setBytes(result.array(), result.arrayOffset(), result.limit());
}
Convert to char[] and fill the CharChunk.
XXX Not optimized - it converts to String first.
/**
* Convert to char[] and fill the CharChunk.
* XXX Not optimized - it converts to String first.
*/
public void toChars() {
if (isNull()) {
return;
}
if (!charC.isNull()) {
type = T_CHARS;
return;
}
// inefficient
toString();
type = T_CHARS;
char cc[] = strValue.toCharArray();
charC.setChars(cc, 0, cc.length);
}
Returns the length of the original buffer.
Note that the length in bytes may be different from the length
in chars.
Returns: the length
/**
* Returns the length of the original buffer.
* Note that the length in bytes may be different from the length
* in chars.
* @return the length
*/
public int getLength() {
if(type==T_BYTES) {
return byteC.getLength();
}
if(type==T_CHARS) {
return charC.getLength();
}
if(type==T_STR) {
return strValue.length();
}
toString();
if( strValue==null ) {
return 0;
}
return strValue.length();
}
// -------------------- equals --------------------
Compares the message bytes to the specified String object.
Params: - s – the String to compare
Returns: true
if the comparison succeeded, false
otherwise
/**
* Compares the message bytes to the specified String object.
* @param s the String to compare
* @return <code>true</code> if the comparison succeeded, <code>false</code> otherwise
*/
public boolean equals(String s) {
switch (type) {
case T_STR:
if (strValue == null) {
return s == null;
}
return strValue.equals( s );
case T_CHARS:
return charC.equals( s );
case T_BYTES:
return byteC.equals( s );
default:
return false;
}
}
Compares the message bytes to the specified String object.
Params: - s – the String to compare
Returns: true
if the comparison succeeded, false
otherwise
/**
* Compares the message bytes to the specified String object.
* @param s the String to compare
* @return <code>true</code> if the comparison succeeded, <code>false</code> otherwise
*/
public boolean equalsIgnoreCase(String s) {
switch (type) {
case T_STR:
if (strValue == null) {
return s == null;
}
return strValue.equalsIgnoreCase( s );
case T_CHARS:
return charC.equalsIgnoreCase( s );
case T_BYTES:
return byteC.equalsIgnoreCase( s );
default:
return false;
}
}
@Override
public boolean equals(Object obj) {
if (obj instanceof MessageBytes) {
return equals((MessageBytes) obj);
}
return false;
}
public boolean equals(MessageBytes mb) {
switch (type) {
case T_STR:
return mb.equals( strValue );
}
if( mb.type != T_CHARS &&
mb.type!= T_BYTES ) {
// it's a string or int/date string value
return equals( mb.toString() );
}
// mb is either CHARS or BYTES.
// this is either CHARS or BYTES
// Deal with the 4 cases ( in fact 3, one is symmetric)
if( mb.type == T_CHARS && type==T_CHARS ) {
return charC.equals( mb.charC );
}
if( mb.type==T_BYTES && type== T_BYTES ) {
return byteC.equals( mb.byteC );
}
if( mb.type== T_CHARS && type== T_BYTES ) {
return byteC.equals( mb.charC );
}
if( mb.type== T_BYTES && type== T_CHARS ) {
return mb.byteC.equals( charC );
}
// can't happen
return true;
}
Params: - s – the string
- pos – The start position
Returns: true
if the message bytes starts with the specified string.
/**
* @return <code>true</code> if the message bytes starts with the specified string.
* @param s the string
* @param pos The start position
*/
public boolean startsWithIgnoreCase(String s, int pos) {
switch (type) {
case T_STR:
if( strValue==null ) {
return false;
}
if( strValue.length() < pos + s.length() ) {
return false;
}
for( int i=0; i<s.length(); i++ ) {
if( Ascii.toLower( s.charAt( i ) ) !=
Ascii.toLower( strValue.charAt( pos + i ))) {
return false;
}
}
return true;
case T_CHARS:
return charC.startsWithIgnoreCase( s, pos );
case T_BYTES:
return byteC.startsWithIgnoreCase( s, pos );
default:
return false;
}
}
// -------------------- Hash code --------------------
@Override
public int hashCode() {
if( hasHashCode ) {
return hashCode;
}
int code = 0;
code=hash();
hashCode=code;
hasHashCode=true;
return code;
}
// normal hash.
private int hash() {
int code=0;
switch (type) {
case T_STR:
// We need to use the same hash function
for (int i = 0; i < strValue.length(); i++) {
code = code * 37 + strValue.charAt( i );
}
return code;
case T_CHARS:
return charC.hash();
case T_BYTES:
return byteC.hash();
default:
return 0;
}
}
// Inefficient initial implementation. Will be replaced on the next
// round of tune-up
public int indexOf(String s, int starting) {
toString();
return strValue.indexOf( s, starting );
}
// Inefficient initial implementation. Will be replaced on the next
// round of tune-up
public int indexOf(String s) {
return indexOf( s, 0 );
}
public int indexOfIgnoreCase(String s, int starting) {
toString();
String upper=strValue.toUpperCase(Locale.ENGLISH);
String sU=s.toUpperCase(Locale.ENGLISH);
return upper.indexOf( sU, starting );
}
Copy the src into this MessageBytes, allocating more space if needed.
Params: - src – The source
Throws: - IOException – Writing overflow data to the output channel failed
/**
* Copy the src into this MessageBytes, allocating more space if needed.
* @param src The source
* @throws IOException Writing overflow data to the output channel failed
*/
public void duplicate( MessageBytes src ) throws IOException
{
switch( src.getType() ) {
case MessageBytes.T_BYTES:
type=T_BYTES;
ByteChunk bc=src.getByteChunk();
byteC.allocate( 2 * bc.getLength(), -1 );
byteC.append( bc );
break;
case MessageBytes.T_CHARS:
type=T_CHARS;
CharChunk cc=src.getCharChunk();
charC.allocate( 2 * cc.getLength(), -1 );
charC.append( cc );
break;
case MessageBytes.T_STR:
type=T_STR;
String sc=src.getString();
this.setString( sc );
break;
}
setCharset(src.getCharset());
}
// -------------------- Deprecated code --------------------
// efficient long
// XXX used only for headers - shouldn't be stored here.
private long longValue;
private boolean hasLongValue=false;
Set the buffer to the representation of an long.
Params: - l – The long
/**
* Set the buffer to the representation of an long.
* @param l The long
*/
public void setLong(long l) {
byteC.allocate(32, 64);
long current = l;
byte[] buf = byteC.getBuffer();
int start = 0;
int end = 0;
if (l == 0) {
buf[end++] = (byte) '0';
}
if (l < 0) {
current = -l;
buf[end++] = (byte) '-';
}
while (current > 0) {
int digit = (int) (current % 10);
current = current / 10;
buf[end++] = HexUtils.getHex(digit);
}
byteC.setOffset(0);
byteC.setEnd(end);
// Inverting buffer
end--;
if (l < 0) {
start++;
}
while (end > start) {
byte temp = buf[start];
buf[start] = buf[end];
buf[end] = temp;
start++;
end--;
}
longValue=l;
hasStrValue=false;
hasHashCode=false;
hasLongValue=true;
type=T_BYTES;
}
// Used for headers conversion
Convert the buffer to an long, cache the value.
Returns: the long value
/**
* Convert the buffer to an long, cache the value.
* @return the long value
*/
public long getLong() {
if( hasLongValue ) {
return longValue;
}
switch (type) {
case T_BYTES:
longValue=byteC.getLong();
break;
default:
longValue=Long.parseLong(toString());
}
hasLongValue=true;
return longValue;
}
// -------------------- Future may be different --------------------
private static final MessageBytesFactory factory=new MessageBytesFactory();
private static class MessageBytesFactory {
protected MessageBytesFactory() {
}
public MessageBytes newInstance() {
return new MessageBytes();
}
}
}