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RHEncryptedDriver.cpp
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RHEncryptedDriver.cpp
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// RHEncryptedDriver.cpp
//
// Author: Philippe.Rochat'at'gmail.com
// Contributed to the RadioHead project by the author
// $Id: RHEncryptedDriver.cpp,v 1.7 2020/08/04 09:02:14 mikem Exp $
#include <RadioHead.h>
#ifdef RH_ENABLE_ENCRYPTION_MODULE
#include <RHEncryptedDriver.h>
RHEncryptedDriver::RHEncryptedDriver(RHGenericDriver& driver, BlockCipher& blockcipher)
: _driver(driver),
_blockcipher(blockcipher)
{
_buffer = (uint8_t *)calloc(_driver.maxMessageLength(), sizeof(uint8_t));
}
bool RHEncryptedDriver::recv(uint8_t* buf, uint8_t* len)
{
int h = 0; // Index of output _buffer
bool status = _driver.recv(_buffer, len);
if (status && buf && len)
{
int blockSize = _blockcipher.blockSize(); // Size of blocks used by encryption
int nbBlocks = *len / blockSize; // Number of blocks in that message
if (nbBlocks * blockSize == *len)
{
// Or we have a missmatch ... this is probably not symetrically encrypted
for (int k = 0; k < nbBlocks; k++)
{
// Decrypt each block
_blockcipher.decryptBlock(&buf[h], &_buffer[k*blockSize]); // Decrypt that block into buf
h += blockSize;
#ifdef STRICT_CONTENT_LEN
if (k == 0)
{
// if (buf[0] > *len - 1)
// return false; // Bogus payload length
*len = buf[0]; // First byte contains length
h--; // First block is of length--
memmove(buf, buf+1, blockSize - 1);
}
#endif
}
}
}
return status;
}
bool RHEncryptedDriver::send(const uint8_t* data, uint8_t len)
{
if (len > maxMessageLength())
return false;
bool status = true;
int blockSize = _blockcipher.blockSize(); // Size of blocks used by encryption
if (len == 0) // PassThru
return _driver.send(data, len);
if (_cipheringBlocks.blockSize != blockSize)
{
// Cipher has changed it's block size
_cipheringBlocks.inputBlock = (uint8_t *)realloc(_cipheringBlocks.inputBlock, blockSize);
_cipheringBlocks.blockSize = blockSize;
}
int max_message_length = maxMessageLength();
#ifdef STRICT_CONTENT_LEN
uint8_t nbBlocks = len / blockSize + 1; // How many blocks do we need for that message
uint8_t nbBpM = (max_message_length + 1) / blockSize; // Max number of blocks per message
#else
uint8_t nbBlocks = (len - 1) / blockSize + 1; // How many blocks do we need for that message
uint8_t nbBpM = max_message_length / blockSize; // Max number of blocks per message
#endif
int k = 0, j = 0; // k is block index, j is original message index
#ifndef ALLOW_MULTIPLE_MSG
#ifdef STRICT_CONTENT_LEN
for (k = 0; k < nbBpM && k * blockSize < len + 1; k++)
#else
for (k = 0; k < nbBpM && k * blockSize < len; k++)
#endif
{
// k blocks in that message
int h = 0; // h is block content index
#ifdef STRICT_CONTENT_LEN
if (k == 0)
_cipheringBlocks.inputBlock[h++] = len; // put in first byte of first block the message length
#endif
while (h < blockSize)
{
// Copy each msg byte into inputBlock, and trail with 0 if necessary
if (j < len)
_cipheringBlocks.inputBlock[h++] = data[j++];
else
_cipheringBlocks.inputBlock[h++] = 0; // Completing with trailing 0
}
_blockcipher.encryptBlock(&_buffer[k * blockSize], _cipheringBlocks.inputBlock); // Cipher that message into _buffer
}
// Serial.println(max_message_length);
// Serial.println(nbBlocks);
// Serial.println(nbBpM);
// Serial.println(k);
// Serial.println(blockSize);
// printBuffer("single send", _buffer, k * blockSize);
if (!_driver.send(_buffer, k*blockSize)) // We now send that message with it's new length
status = false;
#else
uint8_t nbMsg = (nbBlocks * blockSize) / max_message_length + 1; // How many message do we need
for (int i = 0; i < nbMsg; i++)
{
// i is message index
for (k = 0; k < nbBpM && k * blockSize < len ; k++)
{
// k blocks in that message
int h = 0;
#ifdef STRICT_CONTENT_LEN
if (k == 0 && i == 0)
_cipheringBlocks.inputBlock[h++] = len; // put in first byte of first block of first message the message length
#endif
while (h < blockSize)
{
// Copy each msg byte into inputBlock, and trail with 0 if necessary
if (j < len)
_cipheringBlocks.inputBlock[h++] = data[j++];
else
_cipheringBlocks.inputBlock[h++] = 0;
}
_blockcipher.encryptBlock(&_buffer[k * blockSize], _cipheringBlocks.inputBlock); // Cipher that message into buffer
}
// printBuffer("multiple send", _buffer, k * blockSize);
if (!_driver.send(_buffer, k * blockSize)) // We now send that message with it's new length
status = false;
}
#endif
return status;
}
uint8_t RHEncryptedDriver::maxMessageLength()
{
int driver_len = _driver.maxMessageLength();
#ifndef ALLOW_MULTIPLE_MSG
driver_len = ((int)(driver_len/_blockcipher.blockSize()) ) * _blockcipher.blockSize();
#endif
#ifdef STRICT_CONTENT_LEN
driver_len--;
#endif
return driver_len;
}
#endif