FreeRTOS/Demo/CORTEX_AT91SAM3U256_IAR/AT91Lib/peripherals/tdes/tdes.c - nest-detect/1.1/freertos - Git at Google

 /* ----------------------------------------------------------------------------
  *         ATMEL Microcontroller Software Support
  * ----------------------------------------------------------------------------
  * Copyright (c) 2008, Atmel Corporation
  *
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are met:
  *
  * - Redistributions of source code must retain the above copyright notice,
  * this list of conditions and the disclaimer below.
  *
  * Atmel's name may not be used to endorse or promote products derived from
  * this software without specific prior written permission.
  *
  * DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
  * DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
  * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
  * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
  * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
  * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  * ----------------------------------------------------------------------------
  */

 //------------------------------------------------------------------------------
 //         Headers
 //------------------------------------------------------------------------------

 #include "tdes.h"
 #include <board.h>
 #include <utility/assert.h>
 #include <utility/trace.h>

 //------------------------------------------------------------------------------
 //         Global functions
 //------------------------------------------------------------------------------

 //------------------------------------------------------------------------------
 /// Configures the triple-DES peripheral to cipher/decipher, use single-DES or
 /// triple-DES, use two or three keys (when in triple-DES mode), start manually,
 /// automatically or via the PDC and use the given operating mode (ECB, CBC,
 /// CFB or OFB).
 /// \param cipher  Encrypts if 1, decrypts if 0.
 /// \param tdesmod  Single- or triple-DES mode.
 /// \param keymod  Use two or three keys (must be 0 in single-DES mode).
 /// \param smod  Start mode.
 /// \param opmod  Encryption/decryption mode.
 //------------------------------------------------------------------------------
 void TDES_Configure(
     unsigned char cipher,
     unsigned int tdesmod,
     unsigned int keymod,
     unsigned int smod,
     unsigned int opmod)
 {
     TRACE_DEBUG("TDES_Configure()\n\r");
     SANITY_CHECK((cipher & 0xFFFFFFFE) == 0);
     SANITY_CHECK((tdesmod & 0xFFFFFFFD) == 0);
     SANITY_CHECK((keymod & 0xFFFFFFEF) == 0);
     SANITY_CHECK((smod & 0xFFFFFCFF) == 0);
     SANITY_CHECK((opmod & 0xFFFFCFFF) == 0);

     // Reset peripheral
     AT91C_BASE_TDES->TDES_CR = AT91C_TDES_SWRST;

     // Configure mode register
     AT91C_BASE_TDES->TDES_MR = cipher | tdesmod | keymod | smod | opmod;
 }

 //------------------------------------------------------------------------------
 /// Starts the encryption or decryption process if the TDES peripheral is
 /// configured in manual or PDC mode.
 //------------------------------------------------------------------------------
 void TDES_Start(void)
 {
     TRACE_DEBUG("TDES_Start()\n\r");
     SANITY_CHECK(((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_SMOD) == AT91C_TDES_SMOD_MANUAL)
                  || ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_SMOD) == AT91C_TDES_SMOD_PDC));

     // Manual mode
     if ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_SMOD) == AT91C_TDES_SMOD_MANUAL) {

         AT91C_BASE_TDES->TDES_CR = AT91C_TDES_START;
     }
     // PDC mode
     else {

         AT91C_BASE_TDES->TDES_PTCR = AT91C_PDC_RXTEN | AT91C_PDC_TXTEN;
     }
 }

 //------------------------------------------------------------------------------
 /// Returns the current status register value of the TDES peripheral.
 //------------------------------------------------------------------------------
 unsigned int TDES_GetStatus(void)
 {
     TRACE_DEBUG("TDES_GetStatus()\n\r");

     return AT91C_BASE_TDES->TDES_ISR;
 }

 //------------------------------------------------------------------------------
 /// Sets the 64-bits keys (one, two or three depending on the configuration)
 /// that shall be used by the TDES algorithm.
 /// \param pKey1  Pointer to key #1.
 /// \param pKey2  Pointer to key #2 (shall be 0 in single-DES mode).
 /// \param pKey3  Pointer to key #3 (shall be 0 when using two keys).
 //------------------------------------------------------------------------------
 void TDES_SetKeys(
     const unsigned int *pKey1,
     const unsigned int *pKey2,
     const unsigned int *pKey3)
 {
     TRACE_DEBUG("TDES_SetKeys()\n\r");
     SANITY_CHECK(pKey1);
     SANITY_CHECK((pKey2 && ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_TDESMOD) == AT91C_TDES_TDESMOD))
                  || (!pKey2 && ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_TDESMOD) == 0)));
     SANITY_CHECK((pKey3
                   && ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_TDESMOD) == AT91C_TDES_TDESMOD)
                   && ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_KEYMOD) == 0))
                  ||
                  (!pKey3
                   && ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_TDESMOD) == AT91C_TDES_TDESMOD)
                   && ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_KEYMOD) == AT91C_TDES_KEYMOD))
                  ||
                  (!pKey3
                   && ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_TDESMOD) == 0)
                   && ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_KEYMOD) == 0)));

     // Write key #1
     if (pKey1) {

         AT91C_BASE_TDES->TDES_KEY1WxR[0] = pKey1[0];
         AT91C_BASE_TDES->TDES_KEY1WxR[1] = pKey1[1];
     }

     // Write key #2
     if (pKey1) {

         AT91C_BASE_TDES->TDES_KEY2WxR[0] = pKey2[0];
         AT91C_BASE_TDES->TDES_KEY2WxR[1] = pKey2[1];
     }

     // Write key #2
     if (pKey1) {

         AT91C_BASE_TDES->TDES_KEY3WxR[0] = pKey3[0];
         AT91C_BASE_TDES->TDES_KEY3WxR[1] = pKey3[1];
     }
 }

 //------------------------------------------------------------------------------
 /// Sets the input data to encrypt/decrypt using TDES.
 /// \param pInput  Pointer to the 64-bits input data.
 //------------------------------------------------------------------------------
 void TDES_SetInputData(const unsigned int *pInput)
 {
     TRACE_DEBUG("TDES_SetInputData()\n\r");
     SANITY_CHECK(pInput);

     AT91C_BASE_TDES->TDES_IDATAxR[0] = pInput[0];
     AT91C_BASE_TDES->TDES_IDATAxR[1] = pInput[1];
 }

 //------------------------------------------------------------------------------
 /// Sets the input data buffer to encrypt/decrypt when in PDC mode.
 /// \param pInput  Pointer to the input data.
 /// \param size  Size of buffer in bytes.
 //------------------------------------------------------------------------------
 void TDES_SetInputBuffer(const unsigned int *pInput, unsigned int size)
 {
     TRACE_DEBUG("TDES_SetInputBuffer()\n\r");
     SANITY_CHECK(pInput);
     SANITY_CHECK((size > 0) && ((size % 8) == 0));

     AT91C_BASE_TDES->TDES_TPR = (unsigned int) pInput;
     AT91C_BASE_TDES->TDES_TCR = size / 4;
 }

 //------------------------------------------------------------------------------
 /// Stores the output data from the last TDES operation into the given 64-bits
 /// buffers.
 /// \param pOutput  Pointer to a 64-bits output buffer.
 //------------------------------------------------------------------------------
 void TDES_GetOutputData(unsigned int *pOutput)
 {
     TRACE_DEBUG("TDES_GetOutputData()\n\r");
     SANITY_CHECK(pOutput);

     pOutput[0] = AT91C_BASE_TDES->TDES_ODATAxR[0];
     pOutput[1] = AT91C_BASE_TDES->TDES_ODATAxR[1];
 }

 //------------------------------------------------------------------------------
 /// Sets the output buffer which will receive the encrypted/decrypted data when
 /// using the PDC.
 /// \param pOutput  Pointer to the output data.
 /// \param size  Size of buffer in bytes.
 //------------------------------------------------------------------------------
 void TDES_SetOutputBuffer(unsigned int *pOutput, unsigned int size)
 {
     TRACE_DEBUG("TDES_SetOutputBuffer()\n\r");
     SANITY_CHECK(pOutput);
     SANITY_CHECK((size > 0) && ((size % 8) == 0));

     AT91C_BASE_TDES->TDES_RPR = (unsigned int) pOutput;
     AT91C_BASE_TDES->TDES_RCR = size / 4;
 }

 //------------------------------------------------------------------------------
 /// Sets the initialization vector to use when the TDES algorithm is configured
 /// in a chained block mode (CBC, CFB or OFB).
 /// \param pVector  Pointer to the 64-bits vector.
 //------------------------------------------------------------------------------
 void TDES_SetVector(const unsigned int *pVector)
 {
     TRACE_DEBUG("TDES_SetVector()\n\r");
     SANITY_CHECK(pVector);

     AT91C_BASE_TDES->TDES_IVxR[0] = pVector[0];
     AT91C_BASE_TDES->TDES_IVxR[1] = pVector[1];
 }
	/* ----------------------------------------------------------------------------
	* ATMEL Microcontroller Software Support
	* ----------------------------------------------------------------------------
	* Copyright (c) 2008, Atmel Corporation
	*
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are met:
	*
	* - Redistributions of source code must retain the above copyright notice,
	* this list of conditions and the disclaimer below.
	*
	* Atmel's name may not be used to endorse or promote products derived from
	* this software without specific prior written permission.
	*
	* DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
	* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
	* DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
	* OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
	* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
	* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
	* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	* ----------------------------------------------------------------------------
	*/

	//------------------------------------------------------------------------------
	// Headers
	//------------------------------------------------------------------------------

	#include "tdes.h"
	#include <board.h>
	#include <utility/assert.h>
	#include <utility/trace.h>

	//------------------------------------------------------------------------------
	// Global functions
	//------------------------------------------------------------------------------

	//------------------------------------------------------------------------------
	/// Configures the triple-DES peripheral to cipher/decipher, use single-DES or
	/// triple-DES, use two or three keys (when in triple-DES mode), start manually,
	/// automatically or via the PDC and use the given operating mode (ECB, CBC,
	/// CFB or OFB).
	/// \param cipher Encrypts if 1, decrypts if 0.
	/// \param tdesmod Single- or triple-DES mode.
	/// \param keymod Use two or three keys (must be 0 in single-DES mode).
	/// \param smod Start mode.
	/// \param opmod Encryption/decryption mode.
	//------------------------------------------------------------------------------
	void TDES_Configure(
	unsigned char cipher,
	unsigned int tdesmod,
	unsigned int keymod,
	unsigned int smod,
	unsigned int opmod)
	{
	TRACE_DEBUG("TDES_Configure()\n\r");
	SANITY_CHECK((cipher & 0xFFFFFFFE) == 0);
	SANITY_CHECK((tdesmod & 0xFFFFFFFD) == 0);
	SANITY_CHECK((keymod & 0xFFFFFFEF) == 0);
	SANITY_CHECK((smod & 0xFFFFFCFF) == 0);
	SANITY_CHECK((opmod & 0xFFFFCFFF) == 0);

	// Reset peripheral
	AT91C_BASE_TDES->TDES_CR = AT91C_TDES_SWRST;

	// Configure mode register
	AT91C_BASE_TDES->TDES_MR = cipher \| tdesmod \| keymod \| smod \| opmod;
	}

	//------------------------------------------------------------------------------
	/// Starts the encryption or decryption process if the TDES peripheral is
	/// configured in manual or PDC mode.
	//------------------------------------------------------------------------------
	void TDES_Start(void)
	{
	TRACE_DEBUG("TDES_Start()\n\r");
	SANITY_CHECK(((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_SMOD) == AT91C_TDES_SMOD_MANUAL)
	\|\| ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_SMOD) == AT91C_TDES_SMOD_PDC));

	// Manual mode
	if ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_SMOD) == AT91C_TDES_SMOD_MANUAL) {

	AT91C_BASE_TDES->TDES_CR = AT91C_TDES_START;
	}
	// PDC mode
	else {

	AT91C_BASE_TDES->TDES_PTCR = AT91C_PDC_RXTEN \| AT91C_PDC_TXTEN;
	}
	}

	//------------------------------------------------------------------------------
	/// Returns the current status register value of the TDES peripheral.
	//------------------------------------------------------------------------------
	unsigned int TDES_GetStatus(void)
	{
	TRACE_DEBUG("TDES_GetStatus()\n\r");

	return AT91C_BASE_TDES->TDES_ISR;
	}

	//------------------------------------------------------------------------------
	/// Sets the 64-bits keys (one, two or three depending on the configuration)
	/// that shall be used by the TDES algorithm.
	/// \param pKey1 Pointer to key #1.
	/// \param pKey2 Pointer to key #2 (shall be 0 in single-DES mode).
	/// \param pKey3 Pointer to key #3 (shall be 0 when using two keys).
	//------------------------------------------------------------------------------
	void TDES_SetKeys(
	const unsigned int *pKey1,
	const unsigned int *pKey2,
	const unsigned int *pKey3)
	{
	TRACE_DEBUG("TDES_SetKeys()\n\r");
	SANITY_CHECK(pKey1);
	SANITY_CHECK((pKey2 && ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_TDESMOD) == AT91C_TDES_TDESMOD))
	\|\| (!pKey2 && ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_TDESMOD) == 0)));
	SANITY_CHECK((pKey3
	&& ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_TDESMOD) == AT91C_TDES_TDESMOD)
	&& ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_KEYMOD) == 0))
	\|\|
	(!pKey3
	&& ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_TDESMOD) == AT91C_TDES_TDESMOD)
	&& ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_KEYMOD) == AT91C_TDES_KEYMOD))
	\|\|
	(!pKey3
	&& ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_TDESMOD) == 0)
	&& ((AT91C_BASE_TDES->TDES_MR & AT91C_TDES_KEYMOD) == 0)));

	// Write key #1
	if (pKey1) {

	AT91C_BASE_TDES->TDES_KEY1WxR[0] = pKey1[0];
	AT91C_BASE_TDES->TDES_KEY1WxR[1] = pKey1[1];
	}

	// Write key #2
	if (pKey1) {

	AT91C_BASE_TDES->TDES_KEY2WxR[0] = pKey2[0];
	AT91C_BASE_TDES->TDES_KEY2WxR[1] = pKey2[1];
	}

	// Write key #2
	if (pKey1) {

	AT91C_BASE_TDES->TDES_KEY3WxR[0] = pKey3[0];
	AT91C_BASE_TDES->TDES_KEY3WxR[1] = pKey3[1];
	}
	}

	//------------------------------------------------------------------------------
	/// Sets the input data to encrypt/decrypt using TDES.
	/// \param pInput Pointer to the 64-bits input data.
	//------------------------------------------------------------------------------
	void TDES_SetInputData(const unsigned int *pInput)
	{
	TRACE_DEBUG("TDES_SetInputData()\n\r");
	SANITY_CHECK(pInput);

	AT91C_BASE_TDES->TDES_IDATAxR[0] = pInput[0];
	AT91C_BASE_TDES->TDES_IDATAxR[1] = pInput[1];
	}

	//------------------------------------------------------------------------------
	/// Sets the input data buffer to encrypt/decrypt when in PDC mode.
	/// \param pInput Pointer to the input data.
	/// \param size Size of buffer in bytes.
	//------------------------------------------------------------------------------
	void TDES_SetInputBuffer(const unsigned int *pInput, unsigned int size)
	{
	TRACE_DEBUG("TDES_SetInputBuffer()\n\r");
	SANITY_CHECK(pInput);
	SANITY_CHECK((size > 0) && ((size % 8) == 0));

	AT91C_BASE_TDES->TDES_TPR = (unsigned int) pInput;
	AT91C_BASE_TDES->TDES_TCR = size / 4;
	}

	//------------------------------------------------------------------------------
	/// Stores the output data from the last TDES operation into the given 64-bits
	/// buffers.
	/// \param pOutput Pointer to a 64-bits output buffer.
	//------------------------------------------------------------------------------
	void TDES_GetOutputData(unsigned int *pOutput)
	{
	TRACE_DEBUG("TDES_GetOutputData()\n\r");
	SANITY_CHECK(pOutput);

	pOutput[0] = AT91C_BASE_TDES->TDES_ODATAxR[0];
	pOutput[1] = AT91C_BASE_TDES->TDES_ODATAxR[1];
	}

	//------------------------------------------------------------------------------
	/// Sets the output buffer which will receive the encrypted/decrypted data when
	/// using the PDC.
	/// \param pOutput Pointer to the output data.
	/// \param size Size of buffer in bytes.
	//------------------------------------------------------------------------------
	void TDES_SetOutputBuffer(unsigned int *pOutput, unsigned int size)
	{
	TRACE_DEBUG("TDES_SetOutputBuffer()\n\r");
	SANITY_CHECK(pOutput);
	SANITY_CHECK((size > 0) && ((size % 8) == 0));

	AT91C_BASE_TDES->TDES_RPR = (unsigned int) pOutput;
	AT91C_BASE_TDES->TDES_RCR = size / 4;
	}

	//------------------------------------------------------------------------------
	/// Sets the initialization vector to use when the TDES algorithm is configured
	/// in a chained block mode (CBC, CFB or OFB).
	/// \param pVector Pointer to the 64-bits vector.
	//------------------------------------------------------------------------------
	void TDES_SetVector(const unsigned int *pVector)
	{
	TRACE_DEBUG("TDES_SetVector()\n\r");
	SANITY_CHECK(pVector);

	AT91C_BASE_TDES->TDES_IVxR[0] = pVector[0];
	AT91C_BASE_TDES->TDES_IVxR[1] = pVector[1];
	}