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/* Jackson JSON-processor.
 *
 * Copyright (c) 2007- Tatu Saloranta, [email protected]
 *
 * Licensed under the License specified in file LICENSE, included with
 * the source code and binary code bundles.
 * You may not use this file except in compliance with the License.
 *
 * 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.codehaus.jackson;

import java.util.Arrays;

/**
 * Abstract base class used to define specific details of which
 * variant of Base64 encoding/decoding is to be used. Although there is
 * somewhat standard basic version (so-called "MIME Base64"), other variants
 * exists, see Base64 Wikipedia entry for details.
 * 
 * @author Tatu Saloranta
 *
 * @since 0.9.3
 */
public final class Base64Variant
{
    /**
     * Placeholder used by "no padding" variant, to be used when a character
     * value is needed.
     */
    final static char PADDING_CHAR_NONE = '\0';

    /**
     * Marker used to denote ascii characters that do not correspond
     * to a 6-bit value (in this variant), and is not used as a padding
     * character.
     */
    public final static int BASE64_VALUE_INVALID = -1;

    /**
     * Marker used to denote ascii character (in decoding table) that
     * is the padding character using this variant (if any).
     */
    public final static int BASE64_VALUE_PADDING = -2;

    /*
    /**********************************************************
    /* Encoding/decoding tables
    /**********************************************************
     */

    /**
     * Decoding table used for base 64 decoding.
     */
    private final int[] _asciiToBase64 = new int[128];

    /**
     * Encoding table used for base 64 decoding when output is done
     * as characters.
     */
    private final char[] _base64ToAsciiC = new char[64];

    /**
     * Alternative encoding table used for base 64 decoding when output is done
     * as ascii bytes.
     */
    private final byte[] _base64ToAsciiB = new byte[64];

    /*
    /**********************************************************
    /* Other configuration
    /**********************************************************
     */

    /**
     * Symbolic name of variant; used for diagnostics/debugging.
     */
    final String _name;

    /**
     * Whether this variant uses padding or not.
     */
    final boolean _usesPadding;

    /**
     * Characted used for padding, if any ({@link #PADDING_CHAR_NONE} if not).
     */
    final char _paddingChar;
    
    /**
     * Maximum number of encoded base64 characters to output during encoding
     * before adding a linefeed, if line length is to be limited
     * ({@link java.lang.Integer#MAX_VALUE} if not limited).
     *

* Note: for some output modes (when writing attributes) linefeeds may * need to be avoided, and this value ignored. */ final int _maxLineLength; /* /********************************************************** /* Life-cycle /********************************************************** */ public Base64Variant(String name, String base64Alphabet, boolean usesPadding, char paddingChar, int maxLineLength) { _name = name; _usesPadding = usesPadding; _paddingChar = paddingChar; _maxLineLength = maxLineLength; // Ok and then we need to create codec tables. // First the main encoding table: int alphaLen = base64Alphabet.length(); if (alphaLen != 64) { throw new IllegalArgumentException("Base64Alphabet length must be exactly 64 (was "+alphaLen+")"); } // And then secondary encoding table and decoding table: base64Alphabet.getChars(0, alphaLen, _base64ToAsciiC, 0); Arrays.fill(_asciiToBase64, BASE64_VALUE_INVALID); for (int i = 0; i < alphaLen; ++i) { char alpha = _base64ToAsciiC[i]; _base64ToAsciiB[i] = (byte) alpha; _asciiToBase64[alpha] = i; } // Plus if we use padding, add that in too if (usesPadding) { _asciiToBase64[(int) paddingChar] = BASE64_VALUE_PADDING; } } /** * "Copy constructor" that can be used when the base alphabet is identical * to one used by another variant except for the maximum line length * (and obviously, name). */ public Base64Variant(Base64Variant base, String name, int maxLineLength) { this(base, name, base._usesPadding, base._paddingChar, maxLineLength); } /** * "Copy constructor" that can be used when the base alphabet is identical * to one used by another variant, but other details (padding, maximum * line length) differ */ public Base64Variant(Base64Variant base, String name, boolean usesPadding, char paddingChar, int maxLineLength) { _name = name; byte[] srcB = base._base64ToAsciiB; System.arraycopy(srcB, 0, this._base64ToAsciiB, 0, srcB.length); char[] srcC = base._base64ToAsciiC; System.arraycopy(srcC, 0, this._base64ToAsciiC, 0, srcC.length); int[] srcV = base._asciiToBase64; System.arraycopy(srcV, 0, this._asciiToBase64, 0, srcV.length); _usesPadding = usesPadding; _paddingChar = paddingChar; _maxLineLength = maxLineLength; } /* /********************************************************** /* Public accessors /********************************************************** */ public String getName() { return _name; } public boolean usesPadding() { return _usesPadding; } public boolean usesPaddingChar(char c) { return c == _paddingChar; } public boolean usesPaddingChar(int ch) { return ch == (int) _paddingChar; } public char getPaddingChar() { return _paddingChar; } public byte getPaddingByte() { return (byte)_paddingChar; } public int getMaxLineLength() { return _maxLineLength; } /* /********************************************************** /* Decoding support /********************************************************** */ /** * @return 6-bit decoded value, if valid character; */ public int decodeBase64Char(char c) { int ch = (int) c; return (ch <= 127) ? _asciiToBase64[ch] : BASE64_VALUE_INVALID; } public int decodeBase64Char(int ch) { return (ch <= 127) ? _asciiToBase64[ch] : BASE64_VALUE_INVALID; } public int decodeBase64Byte(byte b) { int ch = (int) b; return (ch <= 127) ? _asciiToBase64[ch] : BASE64_VALUE_INVALID; } /* /********************************************************** /* Encoding support /********************************************************** */ public char encodeBase64BitsAsChar(int value) { /* Let's assume caller has done necessary checks; this * method must be fast and inlinable */ return _base64ToAsciiC[value]; } /** * Method that encodes given right-aligned (LSB) 24-bit value * into 4 base64 characters, stored in given result buffer. */ public int encodeBase64Chunk(int b24, char[] buffer, int ptr) { buffer[ptr++] = _base64ToAsciiC[(b24 >> 18) & 0x3F]; buffer[ptr++] = _base64ToAsciiC[(b24 >> 12) & 0x3F]; buffer[ptr++] = _base64ToAsciiC[(b24 >> 6) & 0x3F]; buffer[ptr++] = _base64ToAsciiC[b24 & 0x3F]; return ptr; } public void encodeBase64Chunk(StringBuilder sb, int b24) { sb.append(_base64ToAsciiC[(b24 >> 18) & 0x3F]); sb.append(_base64ToAsciiC[(b24 >> 12) & 0x3F]); sb.append(_base64ToAsciiC[(b24 >> 6) & 0x3F]); sb.append(_base64ToAsciiC[b24 & 0x3F]); } /** * Method that outputs partial chunk (which only encodes one * or two bytes of data). Data given is still aligned same as if * it as full data; that is, missing data is at the "right end" * (LSB) of int. * * @param outputBytes Number of encoded bytes included (either 1 or 2) */ public int encodeBase64Partial(int bits, int outputBytes, char[] buffer, int outPtr) { buffer[outPtr++] = _base64ToAsciiC[(bits >> 18) & 0x3F]; buffer[outPtr++] = _base64ToAsciiC[(bits >> 12) & 0x3F]; if (_usesPadding) { buffer[outPtr++] = (outputBytes == 2) ? _base64ToAsciiC[(bits >> 6) & 0x3F] : _paddingChar; buffer[outPtr++] = _paddingChar; } else { if (outputBytes == 2) { buffer[outPtr++] = _base64ToAsciiC[(bits >> 6) & 0x3F]; } } return outPtr; } public void encodeBase64Partial(StringBuilder sb, int bits, int outputBytes) { sb.append(_base64ToAsciiC[(bits >> 18) & 0x3F]); sb.append(_base64ToAsciiC[(bits >> 12) & 0x3F]); if (_usesPadding) { sb.append((outputBytes == 2) ? _base64ToAsciiC[(bits >> 6) & 0x3F] : _paddingChar); sb.append(_paddingChar); } else { if (outputBytes == 2) { sb.append(_base64ToAsciiC[(bits >> 6) & 0x3F]); } } } public byte encodeBase64BitsAsByte(int value) { // As with above, assuming it is 6-bit value return _base64ToAsciiB[value]; } /** * Method that encodes given right-aligned (LSB) 24-bit value * into 4 base64 bytes (ascii), stored in given result buffer. */ public int encodeBase64Chunk(int b24, byte[] buffer, int ptr) { buffer[ptr++] = _base64ToAsciiB[(b24 >> 18) & 0x3F]; buffer[ptr++] = _base64ToAsciiB[(b24 >> 12) & 0x3F]; buffer[ptr++] = _base64ToAsciiB[(b24 >> 6) & 0x3F]; buffer[ptr++] = _base64ToAsciiB[b24 & 0x3F]; return ptr; } /** * Method that outputs partial chunk (which only encodes one * or two bytes of data). Data given is still aligned same as if * it as full data; that is, missing data is at the "right end" * (LSB) of int. * * @param outputBytes Number of encoded bytes included (either 1 or 2) */ public int encodeBase64Partial(int bits, int outputBytes, byte[] buffer, int outPtr) { buffer[outPtr++] = _base64ToAsciiB[(bits >> 18) & 0x3F]; buffer[outPtr++] = _base64ToAsciiB[(bits >> 12) & 0x3F]; if (_usesPadding) { byte pb = (byte) _paddingChar; buffer[outPtr++] = (outputBytes == 2) ? _base64ToAsciiB[(bits >> 6) & 0x3F] : pb; buffer[outPtr++] = pb; } else { if (outputBytes == 2) { buffer[outPtr++] = _base64ToAsciiB[(bits >> 6) & 0x3F]; } } return outPtr; } /** * Convenience method for converting given byte array as base64 encoded * String using this variant's settings. * Resulting value is "raw", that is, not enclosed in double-quotes. * * @param input Byte array to encode * * @since 1.6 */ public String encode(byte[] input) { return encode(input, false); } /** * Convenience method for converting given byte array as base64 encoded * String using this variant's settings, optionally enclosed in * double-quotes. * * @param input Byte array to encode * @param addQuotes Whether to surround resulting value in double quotes * or not * * @since 1.6 */ public String encode(byte[] input, boolean addQuotes) { int inputEnd = input.length; StringBuilder sb; { // let's approximate... 33% overhead, ~= 3/8 (0.375) int outputLen = inputEnd + (inputEnd >> 2) + (inputEnd >> 3); sb = new StringBuilder(outputLen); } if (addQuotes) { sb.append('"'); } int chunksBeforeLF = getMaxLineLength() >> 2; // Ok, first we loop through all full triplets of data: int inputPtr = 0; int safeInputEnd = inputEnd-3; // to get only full triplets while (inputPtr <= safeInputEnd) { // First, mash 3 bytes into lsb of 32-bit int int b24 = ((int) input[inputPtr++]) << 8; b24 |= ((int) input[inputPtr++]) & 0xFF; b24 = (b24 << 8) | (((int) input[inputPtr++]) & 0xFF); encodeBase64Chunk(sb, b24); if (--chunksBeforeLF <= 0) { // note: must quote in JSON value, so not really useful... sb.append('\\'); sb.append('n'); chunksBeforeLF = getMaxLineLength() >> 2; } } // And then we may have 1 or 2 leftover bytes to encode int inputLeft = inputEnd - inputPtr; // 0, 1 or 2 if (inputLeft > 0) { // yes, but do we have room for output? int b24 = ((int) input[inputPtr++]) << 16; if (inputLeft == 2) { b24 |= (((int) input[inputPtr++]) & 0xFF) << 8; } encodeBase64Partial(sb, b24, inputLeft); } if (addQuotes) { sb.append('"'); } return sb.toString(); } /* /********************************************************** /* other methods /********************************************************** */ @Override public String toString() { return _name; } }





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