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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider and lightweight API for the Bouncy Castle Cryptography APIs for JDK 1.5 to JDK 1.8. Note: this package includes the NTRU encryption algorithms.
package org.bouncycastle.util;
/**
* Utility methods for converting byte arrays into ints and longs, and back again.
*/
public abstract class Pack
{
public static short bigEndianToShort(byte[] bs, int off)
{
int n = (bs[ off] & 0xff) << 8;
n |= (bs[++off] & 0xff);
return (short)n;
}
public static int bigEndianToInt(byte[] bs, int off)
{
int n = bs[ off] << 24;
n |= (bs[++off] & 0xff) << 16;
n |= (bs[++off] & 0xff) << 8;
n |= (bs[++off] & 0xff);
return n;
}
public static void bigEndianToInt(byte[] bs, int off, int[] ns)
{
for (int i = 0; i < ns.length; ++i)
{
ns[i] = bigEndianToInt(bs, off);
off += 4;
}
}
public static byte[] intToBigEndian(int n)
{
byte[] bs = new byte[4];
intToBigEndian(n, bs, 0);
return bs;
}
public static void intToBigEndian(int n, byte[] bs, int off)
{
bs[ off] = (byte)(n >>> 24);
bs[++off] = (byte)(n >>> 16);
bs[++off] = (byte)(n >>> 8);
bs[++off] = (byte)(n );
}
public static byte[] intToBigEndian(int[] ns)
{
byte[] bs = new byte[4 * ns.length];
intToBigEndian(ns, bs, 0);
return bs;
}
public static void intToBigEndian(int[] ns, byte[] bs, int off)
{
for (int i = 0; i < ns.length; ++i)
{
intToBigEndian(ns[i], bs, off);
off += 4;
}
}
public static long bigEndianToLong(byte[] bs, int off)
{
int hi = bigEndianToInt(bs, off);
int lo = bigEndianToInt(bs, off + 4);
return ((long)(hi & 0xffffffffL) << 32) | (long)(lo & 0xffffffffL);
}
public static void bigEndianToLong(byte[] bs, int off, long[] ns)
{
for (int i = 0; i < ns.length; ++i)
{
ns[i] = bigEndianToLong(bs, off);
off += 8;
}
}
public static byte[] longToBigEndian(long n)
{
byte[] bs = new byte[8];
longToBigEndian(n, bs, 0);
return bs;
}
public static void longToBigEndian(long n, byte[] bs, int off)
{
intToBigEndian((int)(n >>> 32), bs, off);
intToBigEndian((int)(n & 0xffffffffL), bs, off + 4);
}
public static byte[] longToBigEndian(long[] ns)
{
byte[] bs = new byte[8 * ns.length];
longToBigEndian(ns, bs, 0);
return bs;
}
public static void longToBigEndian(long[] ns, byte[] bs, int off)
{
for (int i = 0; i < ns.length; ++i)
{
longToBigEndian(ns[i], bs, off);
off += 8;
}
}
public static short littleEndianToShort(byte[] bs, int off)
{
int n = bs[ off] & 0xff;
n |= (bs[++off] & 0xff) << 8;
return (short)n;
}
public static int littleEndianToInt(byte[] bs, int off)
{
int n = bs[ off] & 0xff;
n |= (bs[++off] & 0xff) << 8;
n |= (bs[++off] & 0xff) << 16;
n |= bs[++off] << 24;
return n;
}
public static void littleEndianToInt(byte[] bs, int off, int[] ns)
{
for (int i = 0; i < ns.length; ++i)
{
ns[i] = littleEndianToInt(bs, off);
off += 4;
}
}
public static void littleEndianToInt(byte[] bs, int bOff, int[] ns, int nOff, int count)
{
for (int i = 0; i < count; ++i)
{
ns[nOff + i] = littleEndianToInt(bs, bOff);
bOff += 4;
}
}
public static int[] littleEndianToInt(byte[] bs, int off, int count)
{
int[] ns = new int[count];
for (int i = 0; i < ns.length; ++i)
{
ns[i] = littleEndianToInt(bs, off);
off += 4;
}
return ns;
}
public static byte[] shortToLittleEndian(short n)
{
byte[] bs = new byte[2];
shortToLittleEndian(n, bs, 0);
return bs;
}
public static void shortToLittleEndian(short n, byte[] bs, int off)
{
bs[ off] = (byte)(n );
bs[++off] = (byte)(n >>> 8);
}
public static byte[] intToLittleEndian(int n)
{
byte[] bs = new byte[4];
intToLittleEndian(n, bs, 0);
return bs;
}
public static void intToLittleEndian(int n, byte[] bs, int off)
{
bs[ off] = (byte)(n );
bs[++off] = (byte)(n >>> 8);
bs[++off] = (byte)(n >>> 16);
bs[++off] = (byte)(n >>> 24);
}
public static byte[] intToLittleEndian(int[] ns)
{
byte[] bs = new byte[4 * ns.length];
intToLittleEndian(ns, bs, 0);
return bs;
}
public static void intToLittleEndian(int[] ns, byte[] bs, int off)
{
for (int i = 0; i < ns.length; ++i)
{
intToLittleEndian(ns[i], bs, off);
off += 4;
}
}
public static long littleEndianToLong(byte[] bs, int off)
{
int lo = littleEndianToInt(bs, off);
int hi = littleEndianToInt(bs, off + 4);
return ((long)(hi & 0xffffffffL) << 32) | (long)(lo & 0xffffffffL);
}
public static void littleEndianToLong(byte[] bs, int off, long[] ns)
{
for (int i = 0; i < ns.length; ++i)
{
ns[i] = littleEndianToLong(bs, off);
off += 8;
}
}
public static void littleEndianToLong(byte[] bs, int bsOff, long[] ns, int nsOff, int nsLen)
{
for (int i = 0; i < nsLen; ++i)
{
ns[nsOff + i] = littleEndianToLong(bs, bsOff);
bsOff += 8;
}
}
public static byte[] longToLittleEndian(long n)
{
byte[] bs = new byte[8];
longToLittleEndian(n, bs, 0);
return bs;
}
public static void longToLittleEndian(long n, byte[] bs, int off)
{
intToLittleEndian((int)(n & 0xffffffffL), bs, off);
intToLittleEndian((int)(n >>> 32), bs, off + 4);
}
public static byte[] longToLittleEndian(long[] ns)
{
byte[] bs = new byte[8 * ns.length];
longToLittleEndian(ns, bs, 0);
return bs;
}
public static void longToLittleEndian(long[] ns, byte[] bs, int off)
{
for (int i = 0; i < ns.length; ++i)
{
longToLittleEndian(ns[i], bs, off);
off += 8;
}
}
public static void longToLittleEndian(long[] ns, int nsOff, int nsLen, byte[] bs, int bsOff)
{
for (int i = 0; i < nsLen; ++i)
{
longToLittleEndian(ns[nsOff + i], bs, bsOff);
bsOff += 8;
}
}
}