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org.apache.wicket.util.crypt.Base64 Maven / Gradle / Ivy

/*
 * 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.wicket.util.crypt;

/**
 * Provides Base64 encoding and decoding as defined by RFC 2045.
 * 

 * This class is taken from the Apache commons-codec, and adjusted to fit the Wicket framework's
 * needs, especially external dependencies have been removed.
 * 
 * 

 * This class implements section 6.8. Base64 Content-Transfer-Encoding from RFC 2045
 * Multipurpose Internet Mail Extensions (MIME) Part One: Format of Internet Message
 * Bodies by Freed and Borenstein.
 * 
 * 
 * @author Apache Software Foundation
 * @since 1.2
 */
public class Base64
{
	/**
	 * Chunk size per RFC 2045 section 6.8.
	 * 

	 * 

	 * The {@value} character limit does not count the trailing CRLF, but counts all other
	 * characters, including any equal signs.
	 * 
	 * 
	 * @see RFC 2045 section 6.8
	 */
	static final int CHUNK_SIZE = 76;

	/**
	 * Chunk separator per RFC 2045 section 2.1.
	 * 
	 * @see RFC 2045 section 2.1
	 */
	static final byte[] CHUNK_SEPARATOR = "\r\n".getBytes();

	/**
	 * The base length.
	 */
	static final int BASELENGTH = 255;

	/**
	 * Lookup length.
	 */
	static final int LOOKUPLENGTH = 64;

	/**
	 * Used to calculate the number of bits in a byte.
	 */
	static final int EIGHTBIT = 8;

	/**
	 * Used when encoding something which has fewer than 24 bits.
	 */
	static final int SIXTEENBIT = 16;

	/**
	 * Used to determine how many bits data contains.
	 */
	static final int TWENTYFOURBITGROUP = 24;

	/**
	 * Used to get the number of Quadruples.
	 */
	static final int FOURBYTE = 4;

	/**
	 * Used to test the sign of a byte.
	 */
	static final int SIGN = -128;

	/**
	 * Byte used to pad output.
	 */
	static final byte PAD = (byte)'=';

	/**
	 * Contains the Base64 values 0 through 63 accessed by using character
	 * encodings as indices.
	 * 

	 * For example, base64Alphabet['+'] returns 62.
	 * 
	 * 

	 * The value of undefined encodings is -1.
	 * 
	 */
	private static byte[] base64Alphabet = new byte[BASELENGTH];

	/**
	 * 

	 * Contains the Base64 encodings A through Z, followed by
	 * a through z, followed by 0 through 9,
	 * followed by +, and /.
	 * 
	 * 

	 * This array is accessed by using character values as indices.
	 * 
	 * 

	 * For example, lookUpBase64Alphabet[62]  returns '+'.
	 * 
	 */
	private static byte[] lookUpBase64Alphabet = new byte[LOOKUPLENGTH];

	// Populating the lookup and character arrays
	static
	{
		for (int i = 0; i < BASELENGTH; i++)
		{
			base64Alphabet[i] = (byte)-1;
		}
		for (int i = 'Z'; i >= 'A'; i--)
		{
			base64Alphabet[i] = (byte)(i - 'A');
		}
		for (int i = 'z'; i >= 'a'; i--)
		{
			base64Alphabet[i] = (byte)(i - 'a' + 26);
		}
		for (int i = '9'; i >= '0'; i--)
		{
			base64Alphabet[i] = (byte)(i - '0' + 52);
		}

		base64Alphabet['+'] = 62;
		base64Alphabet['/'] = 63;

		for (int i = 0; i <= 25; i++)
		{
			lookUpBase64Alphabet[i] = (byte)('A' + i);
		}

		for (int i = 26, j = 0; i <= 51; i++, j++)
		{
			lookUpBase64Alphabet[i] = (byte)('a' + j);
		}

		for (int i = 52, j = 0; i <= 61; i++, j++)
		{
			lookUpBase64Alphabet[i] = (byte)('0' + j);
		}

		lookUpBase64Alphabet[62] = (byte)'+';
		lookUpBase64Alphabet[63] = (byte)'/';
	}

	/**
	 * Returns whether or not the octet is in the base 64 alphabet.
	 * 
	 * @param octet
	 *            The value to test
	 * @return true if the value is defined in the the base 64 alphabet,
	 *         false otherwise.
	 */
	private static boolean isBase64(byte octet)
	{
		if (octet == PAD)
		{
			return true;
		}
		else if (octet < 0 || base64Alphabet[octet] == -1)
		{
			return false;
		}
		else
		{
			return true;
		}
	}

	/**
	 * Tests a given byte array to see if it contains only valid characters within the Base64
	 * alphabet.
	 * 
	 * @param arrayOctect
	 *            byte array to test
	 * @return true if all bytes are valid characters in the Base64 alphabet or if the
	 *         byte array is empty; false, otherwise
	 */
	public static boolean isArrayByteBase64(byte[] arrayOctect)
	{
		arrayOctect = discardWhitespace(arrayOctect);

		int length = arrayOctect.length;
		if (length == 0)
		{
			// shouldn't a 0 length array be valid base64 data?
			// return false;
			return true;
		}
		for (int i = 0; i < length; i++)
		{
			if (!isBase64(arrayOctect[i]))
			{
				return false;
			}
		}
		return true;
	}

	/**
	 * Encodes binary data using the base64 algorithm but does not chunk the output.
	 * 
	 * @param binaryData
	 *            binary data to encode
	 * @return Base64 characters
	 */
	public static byte[] encodeBase64(byte[] binaryData)
	{
		return encodeBase64(binaryData, false);
	}

	/**
	 * Encodes binary data using the base64 algorithm and chunks the encoded output into 76
	 * character blocks
	 * 
	 * @param binaryData
	 *            binary data to encode
	 * @return Base64 characters chunked in 76 character blocks
	 */
	public static byte[] encodeBase64Chunked(byte[] binaryData)
	{
		return encodeBase64(binaryData, true);
	}


	/**
	 * Decodes an Object using the base64 algorithm. This method is provided in order to satisfy the
	 * requirements of the Decoder interface, and will throw a DecoderException if the supplied
	 * object is not of type byte[].
	 * 
	 * @param pObject
	 *            Object to decode
	 * @return An object (of type byte[]) containing the binary data which corresponds to the byte[]
	 *         supplied.
	 * @throws IllegalArgumentException
	 *             if the parameter supplied is not of type byte[]
	 */
	public Object decode(Object pObject)
	{
		if (!(pObject instanceof byte[]))
		{
			throw new IllegalArgumentException(
				"Parameter supplied to Base64 decode is not a byte[]");
		}
		return decode((byte[])pObject);
	}

	/**
	 * Decodes a byte[] containing containing characters in the Base64 alphabet.
	 * 
	 * @param pArray
	 *            A byte array containing Base64 character data
	 * @return a byte array containing binary data
	 */
	public byte[] decode(byte[] pArray)
	{
		return decodeBase64(pArray);
	}

	/**
	 * Encodes binary data using the base64 algorithm, optionally chunking the output into 76
	 * character blocks.
	 * 
	 * @param binaryData
	 *            Array containing binary data to encode.
	 * @param isChunked
	 *            if true this encoder will chunk the base64 output into 76 character
	 *            blocks
	 * @return Base64-encoded data.
	 */
	public static byte[] encodeBase64(byte[] binaryData, boolean isChunked)
	{
		int lengthDataBits = binaryData.length * EIGHTBIT;
		int fewerThan24bits = lengthDataBits % TWENTYFOURBITGROUP;
		int numberTriplets = lengthDataBits / TWENTYFOURBITGROUP;
		byte encodedData[] = null;
		int encodedDataLength = 0;
		int nbrChunks = 0;

		if (fewerThan24bits != 0)
		{
			// data not divisible by 24 bit
			encodedDataLength = (numberTriplets + 1) * 4;
		}
		else
		{
			// 16 or 8 bit
			encodedDataLength = numberTriplets * 4;
		}

		// If the output is to be "chunked" into 76 character sections,
		// for compliance with RFC 2045 MIME, then it is important to
		// allow for extra length to account for the separator(s)
		if (isChunked)
		{

			nbrChunks = (CHUNK_SEPARATOR.length == 0 ? 0 : (int)Math.ceil((float)encodedDataLength /
				CHUNK_SIZE));
			encodedDataLength += nbrChunks * CHUNK_SEPARATOR.length;
		}

		encodedData = new byte[encodedDataLength];

		byte k = 0, l = 0, b1 = 0, b2 = 0, b3 = 0;

		int encodedIndex = 0;
		int dataIndex = 0;
		int i = 0;
		int nextSeparatorIndex = CHUNK_SIZE;
		int chunksSoFar = 0;

		// log.debug("number of triplets = " + numberTriplets);
		for (i = 0; i < numberTriplets; i++)
		{
			dataIndex = i * 3;
			b1 = binaryData[dataIndex];
			b2 = binaryData[dataIndex + 1];
			b3 = binaryData[dataIndex + 2];

			// log.debug("b1= " + b1 +", b2= " + b2 + ", b3= " + b3);

			l = (byte)(b2 & 0x0f);
			k = (byte)(b1 & 0x03);

			byte val1 = ((b1 & SIGN) == 0) ? (byte)(b1 >> 2) : (byte)((b1) >> 2 ^ 0xc0);
			byte val2 = ((b2 & SIGN) == 0) ? (byte)(b2 >> 4) : (byte)((b2) >> 4 ^ 0xf0);
			byte val3 = ((b3 & SIGN) == 0) ? (byte)(b3 >> 6) : (byte)((b3) >> 6 ^ 0xfc);

			encodedData[encodedIndex] = lookUpBase64Alphabet[val1];
			// log.debug( "val2 = " + val2 );
			// log.debug( "k4 = " + (k<<4) );
			// log.debug( "vak = " + (val2 | (k<<4)) );
			encodedData[encodedIndex + 1] = lookUpBase64Alphabet[val2 | (k << 4)];
			encodedData[encodedIndex + 2] = lookUpBase64Alphabet[(l << 2) | val3];
			encodedData[encodedIndex + 3] = lookUpBase64Alphabet[b3 & 0x3f];

			encodedIndex += 4;

			// If we are chunking, let's put a chunk separator down.
			if (isChunked)
			{
				// this assumes that CHUNK_SIZE % 4 == 0
				if (encodedIndex == nextSeparatorIndex)
				{
					System.arraycopy(CHUNK_SEPARATOR, 0, encodedData, encodedIndex,
						CHUNK_SEPARATOR.length);
					chunksSoFar++;
					nextSeparatorIndex = (CHUNK_SIZE * (chunksSoFar + 1)) +
						(chunksSoFar * CHUNK_SEPARATOR.length);
					encodedIndex += CHUNK_SEPARATOR.length;
				}
			}
		}

		// form integral number of 6-bit groups
		dataIndex = i * 3;

		if (fewerThan24bits == EIGHTBIT)
		{
			b1 = binaryData[dataIndex];
			k = (byte)(b1 & 0x03);
			// log.debug("b1=" + b1);
			// log.debug("b1<<2 = " + (b1>>2) );
			byte val1 = ((b1 & SIGN) == 0) ? (byte)(b1 >> 2) : (byte)((b1) >> 2 ^ 0xc0);
			encodedData[encodedIndex] = lookUpBase64Alphabet[val1];
			encodedData[encodedIndex + 1] = lookUpBase64Alphabet[k << 4];
			encodedData[encodedIndex + 2] = PAD;
			encodedData[encodedIndex + 3] = PAD;
		}
		else if (fewerThan24bits == SIXTEENBIT)
		{

			b1 = binaryData[dataIndex];
			b2 = binaryData[dataIndex + 1];
			l = (byte)(b2 & 0x0f);
			k = (byte)(b1 & 0x03);

			byte val1 = ((b1 & SIGN) == 0) ? (byte)(b1 >> 2) : (byte)((b1) >> 2 ^ 0xc0);
			byte val2 = ((b2 & SIGN) == 0) ? (byte)(b2 >> 4) : (byte)((b2) >> 4 ^ 0xf0);

			encodedData[encodedIndex] = lookUpBase64Alphabet[val1];
			encodedData[encodedIndex + 1] = lookUpBase64Alphabet[val2 | (k << 4)];
			encodedData[encodedIndex + 2] = lookUpBase64Alphabet[l << 2];
			encodedData[encodedIndex + 3] = PAD;
		}

		if (isChunked)
		{
			// we also add a separator to the end of the final chunk.
			if (chunksSoFar < nbrChunks)
			{
				System.arraycopy(CHUNK_SEPARATOR, 0, encodedData, encodedDataLength -
					CHUNK_SEPARATOR.length, CHUNK_SEPARATOR.length);
			}
		}

		return encodedData;
	}

	/**
	 * Decodes Base64 data into octets
	 * 
	 * @param base64Data
	 *            Byte array containing Base64 data
	 * @return Array containing decoded data.
	 */
	public static byte[] decodeBase64(byte[] base64Data)
	{
		// RFC 2045 requires that we discard ALL non-Base64 characters
		base64Data = discardNonBase64(base64Data);

		// handle the edge case, so we don't have to worry about it later
		if (base64Data.length == 0)
		{
			return new byte[0];
		}

		int numberQuadruple = base64Data.length / FOURBYTE;
		byte decodedData[] = null;
		byte b1 = 0, b2 = 0, b3 = 0, b4 = 0, marker0 = 0, marker1 = 0;

		// Throw away anything not in base64Data

		int encodedIndex = 0;
		int dataIndex = 0;
		{
			// this sizes the output array properly - rlw
			int lastData = base64Data.length;
			// ignore the '=' padding
			while (base64Data[lastData - 1] == PAD)
			{
				if (--lastData == 0)
				{
					return new byte[0];
				}
			}
			decodedData = new byte[lastData - numberQuadruple];
		}

		for (int i = 0; i < numberQuadruple; i++)
		{
			dataIndex = i * 4;
			marker0 = base64Data[dataIndex + 2];
			marker1 = base64Data[dataIndex + 3];

			b1 = base64Alphabet[base64Data[dataIndex]];
			b2 = base64Alphabet[base64Data[dataIndex + 1]];

			if (marker0 != PAD && marker1 != PAD)
			{
				// No PAD e.g 3cQl
				b3 = base64Alphabet[marker0];
				b4 = base64Alphabet[marker1];

				decodedData[encodedIndex] = (byte)(b1 << 2 | b2 >> 4);
				decodedData[encodedIndex + 1] = (byte)(((b2 & 0xf) << 4) | ((b3 >> 2) & 0xf));
				decodedData[encodedIndex + 2] = (byte)(b3 << 6 | b4);
			}
			else if (marker0 == PAD)
			{
				// Two PAD e.g. 3c[Pad][Pad]
				decodedData[encodedIndex] = (byte)(b1 << 2 | b2 >> 4);
			}
			else if (marker1 == PAD)
			{
				// One PAD e.g. 3cQ[Pad]
				b3 = base64Alphabet[marker0];

				decodedData[encodedIndex] = (byte)(b1 << 2 | b2 >> 4);
				decodedData[encodedIndex + 1] = (byte)(((b2 & 0xf) << 4) | ((b3 >> 2) & 0xf));
			}
			encodedIndex += 3;
		}
		return decodedData;
	}

	/**
	 * Discards any whitespace from a base-64 encoded block.
	 * 
	 * @param data
	 *            The base-64 encoded data to discard the whitespace from.
	 * @return The data, less whitespace (see RFC 2045).
	 */
	static byte[] discardWhitespace(byte[] data)
	{
		byte groomedData[] = new byte[data.length];
		int bytesCopied = 0;

		for (int i = 0; i < data.length; i++)
		{
			switch (data[i])
			{
				case (byte)' ' :
				case (byte)'\n' :
				case (byte)'\r' :
				case (byte)'\t' :
					break;
				default :
					groomedData[bytesCopied++] = data[i];
			}
		}

		byte packedData[] = new byte[bytesCopied];

		System.arraycopy(groomedData, 0, packedData, 0, bytesCopied);

		return packedData;
	}

	/**
	 * Discards any characters outside of the base64 alphabet, per the requirements on page 25 of
	 * RFC 2045 - "Any characters outside of the base64 alphabet are to be ignored in base64 encoded
	 * data."
	 * 
	 * @param data
	 *            The base-64 encoded data to groom
	 * @return The data, less non-base64 characters (see RFC 2045).
	 */
	static byte[] discardNonBase64(byte[] data)
	{
		byte groomedData[] = new byte[data.length];
		int bytesCopied = 0;

		for (int i = 0; i < data.length; i++)
		{
			if (isBase64(data[i]))
			{
				groomedData[bytesCopied++] = data[i];
			}
		}

		byte packedData[] = new byte[bytesCopied];

		System.arraycopy(groomedData, 0, packedData, 0, bytesCopied);

		return packedData;
	}

	// Implementation of the Encoder Interface

	/**
	 * Encodes an Object using the base64 algorithm. This method is provided in order to satisfy the
	 * requirements of the Encoder interface, and will throw an EncoderException if the supplied
	 * object is not of type byte[].
	 * 
	 * @param pObject
	 *            Object to encode
	 * @return An object (of type byte[]) containing the base64 encoded data which corresponds to
	 *         the byte[] supplied.
	 * @throws IllegalArgumentException
	 *             if the parameter supplied is not of type byte[]
	 */
	public Object encode(Object pObject)
	{
		if (!(pObject instanceof byte[]))
		{
			throw new IllegalArgumentException(
				"Parameter supplied to Base64 encode is not a byte[]");
		}
		return encode((byte[])pObject);
	}

	/**
	 * Encodes a byte[] containing binary data, into a byte[] containing characters in the Base64
	 * alphabet.
	 * 
	 * @param pArray
	 *            a byte array containing binary data
	 * @return A byte array containing only Base64 character data
	 */
	public byte[] encode(byte[] pArray)
	{
		return encodeBase64(pArray, false);
	}

}