org.apache.poi.hpsf.Property Maven / Gradle / Ivy
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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.poi.hpsf;
import java.io.UnsupportedEncodingException;
import java.util.HashMap;
import java.util.Map;
import org.apache.poi.util.HexDump;
import org.apache.poi.util.LittleEndian;
/**
* A property in a {@link Section} of a {@link PropertySet}.
*
* The property's ID gives the property a meaning
* in the context of its {@link Section}. Each {@link Section} spans
* its own name space of property IDs.
*
* The property's type determines how its
* value is interpreted. For example, if the type is
* {@link Variant#VT_LPSTR} (byte string), the value consists of a
* DWord telling how many bytes the string contains. The bytes follow
* immediately, including any null bytes that terminate the
* string. The type {@link Variant#VT_I4} denotes a four-byte integer
* value, {@link Variant#VT_FILETIME} some date and time (of a
* file).
*
* Please note that not all {@link Variant} types yet. This might change
* over time but largely depends on your feedback so that the POI team knows
* which variant types are really needed. So please feel free to submit error
* reports or patches for the types you need.
*
* Microsoft documentation:
* Property Set Display Name Dictionary.
*
* @author Rainer Klute <[email protected]>
* @author Drew Varner (Drew.Varner InAndAround sc.edu)
* @see Section
* @see Variant
* @version $Id: Property.java 489730 2006-12-22 19:18:16Z bayard $
* @since 2002-02-09
*/
public class Property
{
/**
The property's ID.
*/
protected long id;
/**
* Returns the property's ID.
*
* @return The ID value
*/
public long getID()
{
return id;
}
/** The property's type.
*/
protected long type;
/**
* Returns the property's type.
*
* @return The type value
*/
public long getType()
{
return type;
}
/** The property's value.
*/
protected Object value;
/**
* Returns the property's value.
*
* @return The property's value
*/
public Object getValue()
{
return value;
}
/**
* Creates a property.
*
* @param id the property's ID.
* @param type the property's type, see {@link Variant}.
* @param value the property's value. Only certain types are allowed, see {@link Variant}.
*/
public Property(final long id, final long type, final Object value)
{
this.id = id;
this.type = type;
this.value = value;
}
/**
* Creates a {@link Property} instance by reading its bytes
* from the property set stream.
*
* @param id The property's ID.
* @param src The bytes the property set stream consists of.
* @param offset The property's type/value pair's offset in the
* section.
* @param length The property's type/value pair's length in bytes.
* @param codepage The section's and thus the property's
* codepage. It is needed only when reading string values.
* @exception UnsupportedEncodingException if the specified codepage is not
* supported.
*/
public Property(final long id, final byte[] src, final long offset,
final int length, final int codepage)
throws UnsupportedEncodingException
{
this.id = id;
/*
* ID 0 is a special case since it specifies a dictionary of
* property IDs and property names.
*/
if (id == 0)
{
value = readDictionary(src, offset, length, codepage);
return;
}
int o = (int) offset;
type = LittleEndian.getUInt(src, o);
o += LittleEndian.INT_SIZE;
try
{
value = VariantSupport.read(src, o, length, (int) type, codepage);
}
catch (UnsupportedVariantTypeException ex)
{
VariantSupport.writeUnsupportedTypeMessage(ex);
value = ex.getValue();
}
}
/**
* Creates an empty property. It must be filled using the set method to
* be usable.
*/
protected Property()
{ }
/**
* Reads a dictionary.
*
* @param src The byte array containing the bytes making out the dictionary.
* @param offset At this offset within src the dictionary
* starts.
* @param length The dictionary contains at most this many bytes.
* @param codepage The codepage of the string values.
* @return The dictonary
* @throws UnsupportedEncodingException if the dictionary's codepage is not
* (yet) supported.
*/
protected Map readDictionary(final byte[] src, final long offset,
final int length, final int codepage)
throws UnsupportedEncodingException
{
/* Check whether "offset" points into the "src" array". */
if (offset < 0 || offset > src.length)
throw new HPSFRuntimeException
("Illegal offset " + offset + " while HPSF stream contains " +
length + " bytes.");
int o = (int) offset;
/*
* Read the number of dictionary entries.
*/
final long nrEntries = LittleEndian.getUInt(src, o);
o += LittleEndian.INT_SIZE;
final Map m = new HashMap((int) nrEntries, (float) 1.0);
for (int i = 0; i < nrEntries; i++)
{
/* The key. */
final Long id = new Long(LittleEndian.getUInt(src, o));
o += LittleEndian.INT_SIZE;
/* The value (a string). The length is the either the
* number of (two-byte) characters if the character set is Unicode
* or the number of bytes if the character set is not Unicode.
* The length includes terminating 0x00 bytes which we have to strip
* off to create a Java string. */
long sLength = LittleEndian.getUInt(src, o);
o += LittleEndian.INT_SIZE;
/* Read the string. */
final StringBuffer b = new StringBuffer();
switch (codepage)
{
case -1:
{
/* Without a codepage the length is equal to the number of
* bytes. */
b.append(new String(src, o, (int) sLength));
break;
}
case Constants.CP_UNICODE:
{
/* The length is the number of characters, i.e. the number
* of bytes is twice the number of the characters. */
final int nrBytes = (int) (sLength * 2);
final byte[] h = new byte[nrBytes];
for (int i2 = 0; i2 < nrBytes; i2 += 2)
{
h[i2] = src[o + i2 + 1];
h[i2 + 1] = src[o + i2];
}
b.append(new String(h, 0, nrBytes,
VariantSupport.codepageToEncoding(codepage)));
break;
}
default:
{
/* For encodings other than Unicode the length is the number
* of bytes. */
b.append(new String(src, o, (int) sLength,
VariantSupport.codepageToEncoding(codepage)));
break;
}
}
/* Strip 0x00 characters from the end of the string: */
while (b.length() > 0 && b.charAt(b.length() - 1) == 0x00)
b.setLength(b.length() - 1);
if (codepage == Constants.CP_UNICODE)
{
if (sLength % 2 == 1)
sLength++;
o += (sLength + sLength);
}
else
o += sLength;
m.put(id, b.toString());
}
return m;
}
/**
* Returns the property's size in bytes. This is always a multiple of
* 4.
*
* @return the property's size in bytes
*
* @exception WritingNotSupportedException if HPSF does not yet support the
* property's variant type.
*/
protected int getSize() throws WritingNotSupportedException
{
int length = VariantSupport.getVariantLength(type);
if (length >= 0)
return length; /* Fixed length */
if (length == -2)
/* Unknown length */
throw new WritingNotSupportedException(type, null);
/* Variable length: */
final int PADDING = 4; /* Pad to multiples of 4. */
switch ((int) type)
{
case Variant.VT_LPSTR:
{
int l = ((String) value).length() + 1;
int r = l % PADDING;
if (r > 0)
l += PADDING - r;
length += l;
break;
}
case Variant.VT_EMPTY:
break;
default:
throw new WritingNotSupportedException(type, value);
}
return length;
}
/**
* Compares two properties.
*
* Please beware that a property with ID == 0 is a special case: It does not have a type, and its value is the section's
* dictionary. Another special case are strings: Two properties may have
* the different types Variant.VT_LPSTR and Variant.VT_LPWSTR;
*
* @see Object#equals(java.lang.Object)
*/
public boolean equals(final Object o)
{
if (!(o instanceof Property))
return false;
final Property p = (Property) o;
final Object pValue = p.getValue();
final long pId = p.getID();
if (id != pId || (id != 0 && !typesAreEqual(type, p.getType())))
return false;
if (value == null && pValue == null)
return true;
if (value == null || pValue == null)
return false;
/* It's clear now that both values are non-null. */
final Class valueClass = value.getClass();
final Class pValueClass = pValue.getClass();
if (!(valueClass.isAssignableFrom(pValueClass)) &&
!(pValueClass.isAssignableFrom(valueClass)))
return false;
if (value instanceof byte[])
return Util.equal((byte[]) value, (byte[]) pValue);
return value.equals(pValue);
}
private boolean typesAreEqual(final long t1, final long t2)
{
if (t1 == t2 ||
(t1 == Variant.VT_LPSTR && t2 == Variant.VT_LPWSTR) ||
(t2 == Variant.VT_LPSTR && t1 == Variant.VT_LPWSTR))
return true;
else
return false;
}
/**
* @see Object#hashCode()
*/
public int hashCode()
{
long hashCode = 0;
hashCode += id;
hashCode += type;
if (value != null)
hashCode += value.hashCode();
final int returnHashCode = (int) (hashCode & 0x0ffffffffL );
return returnHashCode;
}
/**
* @see Object#toString()
*/
public String toString()
{
final StringBuffer b = new StringBuffer();
b.append(getClass().getName());
b.append('[');
b.append("id: ");
b.append(getID());
b.append(", type: ");
b.append(getType());
final Object value = getValue();
b.append(", value: ");
b.append(value.toString());
if (value instanceof String)
{
final String s = (String) value;
final int l = s.length();
final byte[] bytes = new byte[l * 2];
for (int i = 0; i < l; i++)
{
final char c = s.charAt(i);
final byte high = (byte) ((c & 0x00ff00) >> 8);
final byte low = (byte) ((c & 0x0000ff) >> 0);
bytes[i * 2] = high;
bytes[i * 2 + 1] = low;
}
final String hex = HexDump.dump(bytes, 0L, 0);
b.append(" [");
b.append(hex);
b.append("]");
}
b.append(']');
return b.toString();
}
}