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/*************************************************
* WiderWake Source File *
* (C) 1999-2007 The Botan Project *
*************************************************/
#include <botan/wid_wake.h>
#include <botan/loadstor.h>
#include <botan/bit_ops.h>
namespace Botan {
/*************************************************
* Combine cipher stream with message *
*************************************************/
void WiderWake_41_BE::cipher(const byte in[], byte out[], u32bit length)
{
while(length >= buffer.size() - position)
{
xor_buf(out, in, buffer + position, buffer.size() - position);
length -= (buffer.size() - position);
in += (buffer.size() - position);
out += (buffer.size() - position);
generate(buffer.size());
}
xor_buf(out, in, buffer + position, length);
position += length;
}
/*************************************************
* Generate cipher stream *
*************************************************/
void WiderWake_41_BE::generate(u32bit length)
{
u32bit R0 = state[0], R1 = state[1],
R2 = state[2], R3 = state[3],
R4 = state[4];
for(u32bit j = 0; j != length; j += 8)
{
u32bit R0a;
store_be(R3, buffer + j);
R0a = R4 + R3; R3 += R2; R2 += R1; R1 += R0;
R0a = (R0a >> 8) ^ T[(R0a & 0xFF)];
R1 = (R1 >> 8) ^ T[(R1 & 0xFF)];
R2 = (R2 >> 8) ^ T[(R2 & 0xFF)];
R3 = (R3 >> 8) ^ T[(R3 & 0xFF)];
R4 = R0; R0 = R0a;
store_be(R3, buffer + j + 4);
R0a = R4 + R3; R3 += R2; R2 += R1; R1 += R0;
R0a = (R0a >> 8) ^ T[(R0a & 0xFF)];
R1 = (R1 >> 8) ^ T[(R1 & 0xFF)];
R2 = (R2 >> 8) ^ T[(R2 & 0xFF)];
R3 = (R3 >> 8) ^ T[(R3 & 0xFF)];
R4 = R0; R0 = R0a;
}
state[0] = R0;
state[1] = R1;
state[2] = R2;
state[3] = R3;
state[4] = R4;
position = 0;
}
/*************************************************
* WiderWake Key Schedule *
*************************************************/
void WiderWake_41_BE::key(const byte key[], u32bit)
{
for(u32bit j = 0; j != 4; ++j)
t_key[j] = load_be<u32bit>(key, j);
static const u32bit MAGIC[8] = {
0x726A8F3B, 0xE69A3B5C, 0xD3C71FE5, 0xAB3C73D2,
0x4D3A8EB3, 0x0396D6E8, 0x3D4C2F7A, 0x9EE27CF3 };
for(u32bit j = 0; j != 4; ++j)
T[j] = t_key[j];
for(u32bit j = 4; j != 256; ++j)
{
u32bit X = T[j-1] + T[j-4];
T[j] = (X >> 3) ^ MAGIC[X % 8];
}
for(u32bit j = 0; j != 23; ++j)
T[j] += T[j+89];
u32bit X = T[33];
u32bit Z = (T[59] | 0x01000001) & 0xFF7FFFFF;
for(u32bit j = 0; j != 256; ++j)
{
X = (X & 0xFF7FFFFF) + Z;
T[j] = (T[j] & 0x00FFFFFF) ^ X;
}
X = (T[X & 0xFF] ^ X) & 0xFF;
Z = T[0];
T[0] = T[X];
for(u32bit j = 1; j != 256; ++j)
{
T[X] = T[j];
X = (T[j ^ X] ^ X) & 0xFF;
T[j] = T[X];
}
T[X] = Z;
position = 0;
const byte iv[8] = { 0 };
resync(iv, 8);
}
/*************************************************
* Resynchronization *
*************************************************/
void WiderWake_41_BE::resync(const byte iv[], u32bit length)
{
if(length != 8)
throw Invalid_IV_Length(name(), length);
for(u32bit j = 0; j != 4; ++j)
state[j] = t_key[j];
state[4] = load_be<u32bit>(iv, 0);
state[0] ^= state[4];
state[2] ^= load_be<u32bit>(iv, 1);
generate(8*4);
generate(buffer.size());
}
/*************************************************
* Clear memory of sensitive data *
*************************************************/
void WiderWake_41_BE::clear() throw()
{
position = 0;
t_key.clear();
state.clear();
T.clear();
buffer.clear();
}
}
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