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/*
* CBC Padding Methods
* (C) 1999-2007,2013 Jack Lloyd
* (C) 2016 René Korthaus, Rohde & Schwarz Cybersecurity
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include <botan/mode_pad.h>
#include <botan/exceptn.h>
#include <botan/internal/ct_utils.h>
namespace Botan {
/**
* Get a block cipher padding method by name
*/
BlockCipherModePaddingMethod* get_bc_pad(const std::string& algo_spec)
{
if(algo_spec == "NoPadding")
return new Null_Padding;
if(algo_spec == "PKCS7")
return new PKCS7_Padding;
if(algo_spec == "OneAndZeros")
return new OneAndZeros_Padding;
if(algo_spec == "X9.23")
return new ANSI_X923_Padding;
if(algo_spec == "ESP")
return new ESP_Padding;
return nullptr;
}
/*
* Pad with PKCS #7 Method
*/
void PKCS7_Padding::add_padding(secure_vector<uint8_t>& buffer,
size_t last_byte_pos,
size_t block_size) const
{
const uint8_t pad_value = static_cast<uint8_t>(block_size - last_byte_pos);
for(size_t i = 0; i != pad_value; ++i)
buffer.push_back(pad_value);
}
/*
* Unpad with PKCS #7 Method
*/
size_t PKCS7_Padding::unpad(const uint8_t block[], size_t size) const
{
CT::poison(block,size);
size_t bad_input = 0;
const uint8_t last_byte = block[size-1];
bad_input |= CT::expand_mask<size_t>(last_byte > size);
size_t pad_pos = size - last_byte;
size_t i = size - 2;
while(i)
{
bad_input |= (~CT::is_equal(block[i],last_byte)) & CT::expand_mask<uint8_t>(i >= pad_pos);
--i;
}
CT::conditional_copy_mem(bad_input,&pad_pos,&size,&pad_pos,1);
CT::unpoison(block,size);
CT::unpoison(pad_pos);
return pad_pos;
}
/*
* Pad with ANSI X9.23 Method
*/
void ANSI_X923_Padding::add_padding(secure_vector<uint8_t>& buffer,
size_t last_byte_pos,
size_t block_size) const
{
const uint8_t pad_value = static_cast<uint8_t>(block_size - last_byte_pos);
for(size_t i = last_byte_pos; i < block_size-1; ++i)
{
buffer.push_back(0);
}
buffer.push_back(pad_value);
}
/*
* Unpad with ANSI X9.23 Method
*/
size_t ANSI_X923_Padding::unpad(const uint8_t block[], size_t size) const
{
CT::poison(block,size);
size_t bad_input = 0;
const size_t last_byte = block[size-1];
bad_input |= CT::expand_mask<size_t>(last_byte > size);
size_t pad_pos = size - last_byte;
size_t i = size - 2;
while(i)
{
bad_input |= (~CT::is_zero(block[i])) & CT::expand_mask<uint8_t>(i >= pad_pos);
--i;
}
CT::conditional_copy_mem(bad_input,&pad_pos,&size,&pad_pos,1);
CT::unpoison(block,size);
CT::unpoison(pad_pos);
return pad_pos;
}
/*
* Pad with One and Zeros Method
*/
void OneAndZeros_Padding::add_padding(secure_vector<uint8_t>& buffer,
size_t last_byte_pos,
size_t block_size) const
{
buffer.push_back(0x80);
for(size_t i = last_byte_pos + 1; i % block_size; ++i)
buffer.push_back(0x00);
}
/*
* Unpad with One and Zeros Method
*/
size_t OneAndZeros_Padding::unpad(const uint8_t block[], size_t size) const
{
CT::poison(block, size);
uint8_t bad_input = 0;
uint8_t seen_one = 0;
size_t pad_pos = size - 1;
size_t i = size;
while(i)
{
seen_one |= CT::is_equal<uint8_t>(block[i-1],0x80);
pad_pos -= CT::select<uint8_t>(~seen_one, 1, 0);
bad_input |= ~CT::is_zero<uint8_t>(block[i-1]) & ~seen_one;
i--;
}
bad_input |= ~seen_one;
CT::conditional_copy_mem(size_t(bad_input),&pad_pos,&size,&pad_pos,1);
CT::unpoison(block, size);
CT::unpoison(pad_pos);
return pad_pos;
}
/*
* Pad with ESP Padding Method
*/
void ESP_Padding::add_padding(secure_vector<uint8_t>& buffer,
size_t last_byte_pos,
size_t block_size) const
{
uint8_t pad_value = 0x01;
for(size_t i = last_byte_pos; i < block_size; ++i)
{
buffer.push_back(pad_value++);
}
}
/*
* Unpad with ESP Padding Method
*/
size_t ESP_Padding::unpad(const uint8_t block[], size_t size) const
{
CT::poison(block,size);
const size_t last_byte = block[size-1];
size_t bad_input = 0;
bad_input |= CT::expand_mask<size_t>(last_byte > size);
size_t pad_pos = size - last_byte;
size_t i = size - 1;
while(i)
{
bad_input |= ~CT::is_equal<uint8_t>(size_t(block[i-1]),size_t(block[i])-1) & CT::expand_mask<uint8_t>(i > pad_pos);
--i;
}
CT::conditional_copy_mem(bad_input,&pad_pos,&size,&pad_pos,1);
CT::unpoison(block, size);
CT::unpoison(pad_pos);
return pad_pos;
}
}
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