FreeRTOS/Demo/CORTEX_A5_SAMA5D2x_Xplained_IAR/AtmelFiles/drivers/peripherals/pio4.c - third_party/github/FreeRTOS/FreeRTOS-Kernel - Git at Google

 /* ----------------------------------------------------------------------------
  *         SAM Software Package License
  * ----------------------------------------------------------------------------
  * Copyright (c) 2015, 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.
  * ----------------------------------------------------------------------------
  */

 /** \addtogroup pio_module Working with PIO
  * \section Purpose
  * The PIO driver provides the Interface for configuration the Parallel Input/Output
  *  Controller (PIO).
  *
  * \section Usage
  * <ul>
  * <li>  Initialize the PIO with the desired period using pio_configure().
  * <li>  Set a high or low output level on the given PIO using pio_set() or pio_clear().
  * <li>  Get the level of the given PIOs using pio_get() or pio_get_output_date_status().
  * <li>  Configures Glitch or Debouncing filter for given input PIO using pio_set_debounce_filter().
  * <li>  Enable & disable write protect of the given PIOs using pio_enable_write_protect() or pio_disable_write_protect().
  * <li>  Get write protect violation information of given PIO using pio_get_write_protect_violation_info().
  * </li>
  * </ul>
  *
  * For more accurate information, please look at the PIT section of the Datasheet.
  *
  * Related files :\n
  * \ref pio.c\n
  * \ref pio3.h\n
 */
 /*@{*/
 /*@}*/

 /**
  * \file
  *
  * Implementation of PIO V3 (Parallel Input/Output) controller.
  *
  */
 /*----------------------------------------------------------------------------
  *        Headers
  *----------------------------------------------------------------------------*/

 #include "chip.h"
 #include "peripherals/pio.h"
 #include "peripherals/pmc.h"
 #include "peripherals/aic.h"
 #include "peripherals/matrix.h"

 #include "trace.h"
 #include "compiler.h"

 #include <stdint.h>
 #include <string.h>
 #include <assert.h>

 /*----------------------------------------------------------------------------
  *        Local types
  *----------------------------------------------------------------------------*/

 struct _bitfield_pio_cfgr_func {
 	uint32_t
 	func            : 3,
 	rfu3_7          : 5,
 	dir             : 1,
 	puen            : 1,
 	pden            : 1,
 	rfu11           : 1,
 	ifen            : 1,
 	ifscen          : 1,
 	opd             : 1,
 	schmitt         : 1,
 	drvstr          : 2,
 	rfu18_23        : 6,
 	evtsel          : 3,
 	rfu27_28        : 2,
 	pcfs            : 1,
 	icfs            : 1,
 	tampen          : 1;
 };

 union _pio_cfg {
 	struct _bitfield_pio_cfgr_func bitfield;
 	uint32_t uint32_value;
 };

 /*----------------------------------------------------------------------------
  *        Local functions declarations
  *----------------------------------------------------------------------------*/

 #ifdef ID_PIOA
 static void _pioa_handler(void);
 #endif
 #ifdef ID_PIOB
 static void _piob_handler(void);
 #endif
 #ifdef ID_PIOC
 static void _pioc_handler(void);
 #endif
 #ifdef ID_PIOD
 static void _piod_handler(void);
 #endif

 /*----------------------------------------------------------------------------
  *        Local variables
  *----------------------------------------------------------------------------*/
 struct _handler {
 	uint32_t mask;
 	pio_handler_t handler;
 	void *user_arg;
 };
 static struct _handler _handlers[IRQ_PIO_HANDLERS_SIZE];

 static const aic_handler_t _generic_handlers[PIO_GROUP_LENGTH] = {
 #ifdef ID_PIOA
 	_pioa_handler,
 #endif
 #ifdef ID_PIOB
 	_piob_handler,
 #endif
 #ifdef ID_PIOC
 	_pioc_handler,
 #endif
 #ifdef ID_PIOD
 	_piod_handler,
 #endif
 };

 /*----------------------------------------------------------------------------
  *        Local functions definitions
  *----------------------------------------------------------------------------*/

 static void _handler_push(void (*handler)(uint32_t, uint32_t, void*),
 		uint32_t mask, void* user_arg)
 {
 	static int i = 0;
 	_handlers[i].mask = mask;
 	_handlers[i].handler = handler;
 	_handlers[i].user_arg = user_arg;
 	++i;
 	assert(i < ARRAY_SIZE(_handlers));
 }

 #ifdef ID_PIOA
 static void _pioa_handler(void)
 {
 	uint32_t status = 0;
 	unsigned int i = 0;
 	if (matrix_is_peripheral_secured(MATRIX1, ID_PIOA))
 		status = PIOA->PIO_PIO_[PIO_GROUP_A].S_PIO_ISR;
 	else
 		status = PIOA->PIO_IO_GROUP[PIO_GROUP_A].PIO_ISR;

 	for (i = 0; i < ARRAY_SIZE(_handlers); ++i) {
 		if (_handlers[i].mask & status) {
 			_handlers[i].handler(PIO_GROUP_A, status,
 					_handlers[i].user_arg);
 		}
 	}
 }
 #endif
 #ifdef ID_PIOB
 static void _piob_handler(void)
 {
 	uint32_t status = 0;
 	unsigned int i = 0;
 	if (matrix_is_peripheral_secured(MATRIX1, ID_PIOB))
 		status = PIOA->PIO_PIO_[PIO_GROUP_B].S_PIO_ISR;
 	else
 		status = PIOA->PIO_IO_GROUP[PIO_GROUP_B].PIO_ISR;

 	for (i = 0; i < ARRAY_SIZE(_handlers); ++i) {
 		if (_handlers[i].mask & status) {
 			_handlers[i].handler(PIO_GROUP_B, status,
 					_handlers[i].user_arg);
 		}
 	}

 }
 #endif
 #ifdef ID_PIOC
 static void _pioc_handler(void)
 {
 	uint32_t status = 0;
 	unsigned int i = 0;
 	if (matrix_is_peripheral_secured(MATRIX1, ID_PIOC))
 		status = PIOA->PIO_PIO_[PIO_GROUP_C].S_PIO_ISR;
 	else
 		status = PIOA->PIO_IO_GROUP[PIO_GROUP_C].PIO_ISR;

 	for (i = 0; i < ARRAY_SIZE(_handlers); ++i) {
 		if (_handlers[i].mask & status) {
 			_handlers[i].handler(PIO_GROUP_C, status,
 					_handlers[i].user_arg);
 		}
 	}
 }
 #endif
 #ifdef ID_PIOD
 static void _piod_handler(void)
 {
 	uint32_t status = 0;
 	unsigned int i = 0;
 	if (matrix_is_peripheral_secured(MATRIX1, ID_PIOD))
 		status = PIOA->PIO_PIO_[PIO_GROUP_D].S_PIO_ISR;
 	else
 		status = PIOA->PIO_IO_GROUP[PIO_GROUP_D].PIO_ISR;

 	for (i = 0; i < ARRAY_SIZE(_handlers); ++i) {
 		if (_handlers[i].mask & status) {
 			_handlers[i].handler(PIO_GROUP_D, status,
 					_handlers[i].user_arg);
 		}
 	}
 }
 #endif

 static inline uint32_t _pio_group_to_id(int group)
 {
 	switch(group) {
 	case PIO_GROUP_A:
 		return ID_PIOA;
 	case PIO_GROUP_B:
 		return ID_PIOB;
 	case PIO_GROUP_C:
 		return ID_PIOC;
 	case PIO_GROUP_D:
 		return ID_PIOD;
 	default:
 		return (unsigned int)-1;
 	};
 }

 static void* _pio_configure_pins(const struct _pin *pin, uint32_t periph_id)
 {
 	PioPio_* piogroup = &PIOA->PIO_PIO_[pin->group];
 	if (!matrix_is_peripheral_secured(MATRIX1, periph_id)) {
 		piogroup->S_PIO_SIONR = pin->mask;
 		return (void*) &PIOA->PIO_IO_GROUP[pin->group];
 	} else {
 		piogroup->S_PIO_SIOSR = pin->mask;
 		return (void*) piogroup;
 	}
 }

 static void* _pio_retrive_group(const struct _pin *pin, uint32_t periph_id)
 {
 	if (!matrix_is_peripheral_secured(MATRIX1, periph_id)) {
 		return (void*) &PIOA->PIO_IO_GROUP[pin->group];
 	} else {
 		return (void*) &PIOA->PIO_PIO_[pin->group];
 	}
 }
 /*----------------------------------------------------------------------------
  *         Exported functions
  *----------------------------------------------------------------------------*/

 /**
  * \brief Configures a list of Pin instances, each of which can either
  * hold a single pin or a group of pins, depending on the mask value;
  * all pins are configured by this function. The size of the array
  * must also be provided and is easily computed using ARRAY_SIZE
  * whenever its length is not known in advance.
  *
  * \param list  Pointer to a list of _pin instances.
  * \param size  Size of the _pin list (calculated using PIN_LISTSIZE).
  *
  * \return 1 if the pins have been configured properly; otherwise 0.
  */
 uint8_t pio_configure(const struct _pin *pin_list, uint32_t size)
 {
 	union _pio_cfg cfg;
 	PioIo_group* pioiog;

 	/* Configure pins */
 	while (size--)
 	{
 		/* Enable the PIO group if needed */
 		uint32_t periph_id = _pio_group_to_id(pin_list->group);

 		assert(pin_list->group < PIO_GROUP_LENGTH);
 		cfg.uint32_value = 0;
 		pioiog = (PioIo_group*) _pio_configure_pins(pin_list, periph_id);

 		if ( pin_list->attribute != PIO_DEFAULT) {
 			cfg.bitfield.puen = (pin_list->attribute & PIO_PULLUP)? 1:0;
 			cfg.bitfield.pden = (pin_list->attribute & PIO_PULLDOWN)? 1:0;
 			cfg.bitfield.ifen = (pin_list->attribute & PIO_DEGLITCH)? 1:0;
 			cfg.bitfield.ifscen = (pin_list->attribute & PIO_DEBOUNCE)? 1:0;
 			cfg.bitfield.opd = (pin_list->attribute & PIO_OPENDRAIN)? 1:0;
 			cfg.bitfield.schmitt =(pin_list->attribute & PIO_TRIGGER_DIS)? 1:0;

 			switch (pin_list->attribute & PIO_DRVSTR_Msk) {
 			case PIO_DRVSTR_HI:
 				cfg.bitfield.drvstr = PIO_CFGR_DRVSTR_HI >> PIO_CFGR_DRVSTR_Pos;
 				break;
 			case PIO_DRVSTR_ME:
 				cfg.bitfield.drvstr = PIO_CFGR_DRVSTR_ME >> PIO_CFGR_DRVSTR_Pos;
 				break;
 			case PIO_DRVSTR_LO:
 			default:
 				cfg.bitfield.drvstr = PIO_CFGR_DRVSTR_LO >> PIO_CFGR_DRVSTR_Pos;
 				break;
 			}

 			switch (pin_list->attribute & PIO_EVTSEL_Msk) {
 			case PIO_IT_HIGH_LEVEL:
 				cfg.bitfield.evtsel = PIO_CFGR_EVTSEL_HIGH >> PIO_CFGR_EVTSEL_Pos;
 				break;
 			case PIO_IT_LOW_LEVEL:
 				cfg.bitfield.evtsel = PIO_CFGR_EVTSEL_LOW >> PIO_CFGR_EVTSEL_Pos;
 				break;
 			case PIO_IT_BOTH_EDGE:
 				cfg.bitfield.evtsel = PIO_CFGR_EVTSEL_BOTH >> PIO_CFGR_EVTSEL_Pos;
 				break;
 			case PIO_IT_RISE_EDGE:
 				cfg.bitfield.evtsel = PIO_CFGR_EVTSEL_RISING >> PIO_CFGR_EVTSEL_Pos;
 				break;
 			case PIO_IT_FALL_EDGE:
 			default:
 				cfg.bitfield.evtsel = PIO_CFGR_EVTSEL_FALLING >> PIO_CFGR_EVTSEL_Pos;
 				break;
 			}
 		}

 		switch (pin_list->type){

 		case PIO_PERIPH_A:
 			cfg.bitfield.func = PIO_CFGR_FUNC_PERIPH_A >> PIO_CFGR_FUNC_Pos;
 			break;
 		case PIO_PERIPH_B:
 			cfg.bitfield.func = PIO_CFGR_FUNC_PERIPH_B >> PIO_CFGR_FUNC_Pos;
 			break;
 		case PIO_PERIPH_C:
 			cfg.bitfield.func = PIO_CFGR_FUNC_PERIPH_C >> PIO_CFGR_FUNC_Pos;
 			break;
 		case PIO_PERIPH_D:
 			cfg.bitfield.func = PIO_CFGR_FUNC_PERIPH_D >> PIO_CFGR_FUNC_Pos;
 			break;
 		case PIO_PERIPH_E:
 			cfg.bitfield.func = PIO_CFGR_FUNC_PERIPH_E >> PIO_CFGR_FUNC_Pos;
 			break;
 		case PIO_PERIPH_F:
 			cfg.bitfield.func = PIO_CFGR_FUNC_PERIPH_F >> PIO_CFGR_FUNC_Pos;
 			break;
 		case PIO_GENERIC:
 		case PIO_INPUT:
 			cfg.bitfield.dir = 0;
 			break;

 		case PIO_OUTPUT_0:
 			cfg.bitfield.dir = 1;
 			pio_clear(pin_list);
 			break;

 		case PIO_OUTPUT_1:
 			cfg.bitfield.dir = 1;
 			pio_set(pin_list);
 			break;

 		default:
 		case PIO_PERIPH_G:
 			return 0;
 		}

 		pioiog->PIO_MSKR = pin_list->mask;
 		pioiog->PIO_CFGR = cfg.uint32_value;
 		pmc_enable_peripheral(periph_id);

 		++pin_list;
 	}
 	return 1;
 }

 /**
  * \brief Sets a high output level on all the PIOs defined in the
  * given Pin instance. This has no immediate effects on PIOs that are
  * not output, but the PIO controller will memorize the value they are
  * changed to outputs.
  *
  * \param pin  Pointer to a Pin instance describing one or more pins.
  */
 void pio_set(const struct _pin *pin)
 {
 	assert(pin->group < PIO_GROUP_LENGTH);
 	uint32_t periph_id = _pio_group_to_id(pin->group);
 	PioIo_group* pioiog = (PioIo_group*) _pio_retrive_group(pin, periph_id);
 	pioiog->PIO_SODR = pin->mask;
 }

 /**
  * \brief Sets a low output level on all the PIOs defined in the given
  * Pin instance. This has no immediate effects on PIOs that are not
  * output, but the PIO controller will memorize the value they are
  * changed to outputs.
  *
  * \param pin  Pointer to a Pin instance describing one or more pins.
  */
 void pio_clear(const struct _pin *pin)
 {
 	assert(pin->group < PIO_GROUP_LENGTH);
 	uint32_t periph_id = _pio_group_to_id(pin->group);
 	PioIo_group* pioiog = (PioIo_group*) _pio_retrive_group(pin, periph_id);
 	pioiog->PIO_CODR = pin->mask;
 }

 /**
  * \brief Returns 1 if one or more PIO of the given Pin instance currently have
  * a high level; otherwise returns 0. This method returns the actual value that
  * is being read on the pin. To return the supposed output value of a pin, use
  * pio_get_output_date_status() instead.
  *
  * \param pin  Pointer to a Pin instance describing one or more pins.
  *
  * \return 1 if the Pin instance contains at least one PIO that currently has
  * a high level; otherwise 0.
  */
 uint8_t pio_get(const struct _pin *pin)
 {
 	assert(pin->group < PIO_GROUP_LENGTH);
 	uint32_t reg ;
 	uint32_t periph_id = _pio_group_to_id(pin->group);
 	PioIo_group* pioiog = (PioIo_group*) _pio_retrive_group(pin, periph_id);

 	if ((pin->type == PIO_OUTPUT_0) || (pin->type == PIO_OUTPUT_1)) {
 		reg = pioiog->PIO_ODSR ;
 	}
 	else {
 		reg = pioiog->PIO_PDSR ;
 	}
 	if ( (reg & pin->mask) == 0 ) {
 		return 0 ;
 	}
 	else {
 		return 1 ;
 	}
 }

 /**
  * \brief Returns 1 if one or more PIO of the given Pin are configured
  * to output a high level (even if they are not output). To get the
  * actual value of the pin, use pio_get() instead.
  *
  * \param pin  Pointer to a Pin instance describing one or more pins.
  *
  * \return 1 if the Pin instance contains at least one PIO that is configured
  * to output a high level; otherwise 0.
  */
 uint8_t pio_get_output_data_status(const struct _pin *pin)
 {
 	assert(pin->group < PIO_GROUP_LENGTH);
 	uint32_t periph_id = _pio_group_to_id(pin->group);
 	PioIo_group* pioiog = (PioIo_group*) _pio_retrive_group(pin, periph_id);

 	if ((pioiog->PIO_ODSR & pin->mask) == 0) {
 		return 0;
 	}
 	else {
 		return 1;
 	}
 }

 /**
  * \brief Configures Glitch or Debouncing filter for input.
  *
  * \param pin  Pointer to a Pin instance describing one or more pins.
  * \param cuttoff  Cutt off frequency for debounce filter.
  */
 void pio_set_debounce_filter(const struct _pin *pin, uint32_t cuttoff)
 {
 	assert(pin->group < PIO_GROUP_LENGTH);
 	if (cuttoff == 0) {
 	   PIOA->S_PIO_SCDR = 0;
 	}
 	else {
 		/* the lowest 14 bits work */
 		PIOA->S_PIO_SCDR =
 			((pmc_get_slow_clock()/(2*(cuttoff))) - 1) & 0x3FFF;
 	}
 }

 /**
  * \brief Enable write protect.
  *
  * \param pin  Pointer to a Pin instance describing one or more pins.
  */
 void pio_enable_write_protect(const struct _pin *pin)
 {
 	assert(pin->group < PIO_GROUP_LENGTH);
 	PIOA->PIO_WPMR = (PIO_WPMR_WPKEY_VALID | PIO_WPMR_WPEN_EN  );
 }

 /**
  * \brief Disable write protect.
  *
  * \param pin  Pointer to a Pin instance describing one or more pins.
  */
 void pio_disable_write_protect(const struct _pin *pin)
 {
 	assert(pin->group < PIO_GROUP_LENGTH);
 	PIOA->PIO_WPMR = (PIO_WPMR_WPKEY_VALID | PIO_WPMR_WPEN_DIS );
 }

 /**
  * \brief Get write protect violation information.
  *
  * \param pin  Pointer to a Pin instance describing one or more pins.
  */
 uint32_t pio_get_write_protect_violation_info(const struct _pin * pin)
 {
 	assert(pin->group < PIO_GROUP_LENGTH);
 	return PIOA->PIO_WPSR;
 }

 void pio_add_handler_to_group(uint32_t group, uint32_t mask,
 			      pio_handler_t handler, void* user_arg)
 {
 	trace_debug("Enter in pio_add_handler_to_group()\n\r");
 	assert(group <
 	       (sizeof(_generic_handlers)/sizeof(_generic_handlers[0])));
 	_handler_push(handler, mask, user_arg);
 	uint32_t id = _pio_group_to_id(group);
 	aic_set_source_vector(id,
 			(aic_handler_t)_generic_handlers[group]);
 	aic_enable(id);
 }

 void pio_reset_all_it(void)
 {
 	int i = 0;
 	for (i = 0; i < PIO_GROUP_LENGTH; ++i) {
 		PIOA->PIO_IO_GROUP[i].PIO_ISR;
 		PIOA->PIO_IO_GROUP[i].PIO_IDR = ~0UL;
 	}
 }

 /**
  * Configures a PIO or a group of PIO to generate an interrupt on status
  * change. The provided interrupt handler will be called with the triggering
  * pin as its parameter (enabling different pin instances to share the same
  * handler).
  * \param pin  Pointer to a _pin instance.
  */
 void pio_configure_it(const struct _pin *pin)
 {
 	trace_debug("Enter in pio_configure_it()\n\r");
 	assert(pin != NULL);
 }

 /**
  * Enables the given interrupt source if it has been configured. The status
  * register of the corresponding PIO controller is cleared prior to enabling
  * the interrupt.
  * \param pin  Interrupt source to enable.
  */
 void pio_enable_it(const struct _pin *pin)
 {
 	trace_debug("pio_enable_it() \n\r");
 	assert(pin != NULL);
 	uint32_t periph_id = _pio_group_to_id(pin->group);
 	PioIo_group* pioiog = (PioIo_group*) _pio_retrive_group(pin, periph_id);

 	pioiog->PIO_ISR;
 	/* Configure interrupt enable register */
 	pioiog->PIO_IER = pin->mask;	/* enable interrupt register */
 }

 /**
  * Disables a given interrupt source, with no added side effects.
  *
  * \param pin  Interrupt source to disable.
  */
 void pio_disable_it(const struct _pin *pin)
 {
 	trace_debug("pio_enable_it()\n\r");
 	assert(pin != NULL);
 	uint32_t periph_id = _pio_group_to_id(pin->group);
 	PioIo_group* pioiog = (PioIo_group*) _pio_retrive_group(pin, periph_id);
 	pioiog->PIO_IDR = pin->mask;
 }
	/* ----------------------------------------------------------------------------
	* SAM Software Package License
	* ----------------------------------------------------------------------------
	* Copyright (c) 2015, 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.
	* ----------------------------------------------------------------------------
	*/

	/** \addtogroup pio_module Working with PIO
	* \section Purpose
	* The PIO driver provides the Interface for configuration the Parallel Input/Output
	* Controller (PIO).
	*
	* \section Usage
	* <ul>
	* <li> Initialize the PIO with the desired period using pio_configure().
	* <li> Set a high or low output level on the given PIO using pio_set() or pio_clear().
	* <li> Get the level of the given PIOs using pio_get() or pio_get_output_date_status().
	* <li> Configures Glitch or Debouncing filter for given input PIO using pio_set_debounce_filter().
	* <li> Enable & disable write protect of the given PIOs using pio_enable_write_protect() or pio_disable_write_protect().
	* <li> Get write protect violation information of given PIO using pio_get_write_protect_violation_info().
	* </li>
	* </ul>
	*
	* For more accurate information, please look at the PIT section of the Datasheet.
	*
	* Related files :\n
	* \ref pio.c\n
	* \ref pio3.h\n
	*/
	/@{/
	/@}/

	/**
	* \file
	*
	* Implementation of PIO V3 (Parallel Input/Output) controller.
	*
	*/
	/*----------------------------------------------------------------------------
	* Headers
	----------------------------------------------------------------------------/

	#include "chip.h"
	#include "peripherals/pio.h"
	#include "peripherals/pmc.h"
	#include "peripherals/aic.h"
	#include "peripherals/matrix.h"

	#include "trace.h"
	#include "compiler.h"

	#include <stdint.h>
	#include <string.h>
	#include <assert.h>

	/*----------------------------------------------------------------------------
	* Local types
	----------------------------------------------------------------------------/

	struct _bitfield_pio_cfgr_func {
	uint32_t
	func : 3,
	rfu3_7 : 5,
	dir : 1,
	puen : 1,
	pden : 1,
	rfu11 : 1,
	ifen : 1,
	ifscen : 1,
	opd : 1,
	schmitt : 1,
	drvstr : 2,
	rfu18_23 : 6,
	evtsel : 3,
	rfu27_28 : 2,
	pcfs : 1,
	icfs : 1,
	tampen : 1;
	};

	union _pio_cfg {
	struct _bitfield_pio_cfgr_func bitfield;
	uint32_t uint32_value;
	};

	/*----------------------------------------------------------------------------
	* Local functions declarations
	----------------------------------------------------------------------------/

	#ifdef ID_PIOA
	static void _pioa_handler(void);
	#endif
	#ifdef ID_PIOB
	static void _piob_handler(void);
	#endif
	#ifdef ID_PIOC
	static void _pioc_handler(void);
	#endif
	#ifdef ID_PIOD
	static void _piod_handler(void);
	#endif

	/*----------------------------------------------------------------------------
	* Local variables
	----------------------------------------------------------------------------/
	struct _handler {
	uint32_t mask;
	pio_handler_t handler;
	void *user_arg;
	};
	static struct _handler _handlers[IRQ_PIO_HANDLERS_SIZE];

	static const aic_handler_t _generic_handlers[PIO_GROUP_LENGTH] = {
	#ifdef ID_PIOA
	_pioa_handler,
	#endif
	#ifdef ID_PIOB
	_piob_handler,
	#endif
	#ifdef ID_PIOC
	_pioc_handler,
	#endif
	#ifdef ID_PIOD
	_piod_handler,
	#endif
	};

	/*----------------------------------------------------------------------------
	* Local functions definitions
	----------------------------------------------------------------------------/

	static void _handler_push(void (handler)(uint32_t, uint32_t, void),
	uint32_t mask, void* user_arg)
	{
	static int i = 0;
	_handlers[i].mask = mask;
	_handlers[i].handler = handler;
	_handlers[i].user_arg = user_arg;
	++i;
	assert(i < ARRAY_SIZE(_handlers));
	}

	#ifdef ID_PIOA
	static void _pioa_handler(void)
	{
	uint32_t status = 0;
	unsigned int i = 0;
	if (matrix_is_peripheral_secured(MATRIX1, ID_PIOA))
	status = PIOA->PIO_PIO_[PIO_GROUP_A].S_PIO_ISR;
	else
	status = PIOA->PIO_IO_GROUP[PIO_GROUP_A].PIO_ISR;

	for (i = 0; i < ARRAY_SIZE(_handlers); ++i) {
	if (_handlers[i].mask & status) {
	_handlers[i].handler(PIO_GROUP_A, status,
	_handlers[i].user_arg);
	}
	}
	}
	#endif
	#ifdef ID_PIOB
	static void _piob_handler(void)
	{
	uint32_t status = 0;
	unsigned int i = 0;
	if (matrix_is_peripheral_secured(MATRIX1, ID_PIOB))
	status = PIOA->PIO_PIO_[PIO_GROUP_B].S_PIO_ISR;
	else
	status = PIOA->PIO_IO_GROUP[PIO_GROUP_B].PIO_ISR;

	for (i = 0; i < ARRAY_SIZE(_handlers); ++i) {
	if (_handlers[i].mask & status) {
	_handlers[i].handler(PIO_GROUP_B, status,
	_handlers[i].user_arg);
	}
	}

	}
	#endif
	#ifdef ID_PIOC
	static void _pioc_handler(void)
	{
	uint32_t status = 0;
	unsigned int i = 0;
	if (matrix_is_peripheral_secured(MATRIX1, ID_PIOC))
	status = PIOA->PIO_PIO_[PIO_GROUP_C].S_PIO_ISR;
	else
	status = PIOA->PIO_IO_GROUP[PIO_GROUP_C].PIO_ISR;

	for (i = 0; i < ARRAY_SIZE(_handlers); ++i) {
	if (_handlers[i].mask & status) {
	_handlers[i].handler(PIO_GROUP_C, status,
	_handlers[i].user_arg);
	}
	}
	}
	#endif
	#ifdef ID_PIOD
	static void _piod_handler(void)
	{
	uint32_t status = 0;
	unsigned int i = 0;
	if (matrix_is_peripheral_secured(MATRIX1, ID_PIOD))
	status = PIOA->PIO_PIO_[PIO_GROUP_D].S_PIO_ISR;
	else
	status = PIOA->PIO_IO_GROUP[PIO_GROUP_D].PIO_ISR;

	for (i = 0; i < ARRAY_SIZE(_handlers); ++i) {
	if (_handlers[i].mask & status) {
	_handlers[i].handler(PIO_GROUP_D, status,
	_handlers[i].user_arg);
	}
	}
	}
	#endif

	static inline uint32_t _pio_group_to_id(int group)
	{
	switch(group) {
	case PIO_GROUP_A:
	return ID_PIOA;
	case PIO_GROUP_B:
	return ID_PIOB;
	case PIO_GROUP_C:
	return ID_PIOC;
	case PIO_GROUP_D:
	return ID_PIOD;
	default:
	return (unsigned int)-1;
	};
	}

	static void* _pio_configure_pins(const struct _pin *pin, uint32_t periph_id)
	{
	PioPio_* piogroup = &PIOA->PIO_PIO_[pin->group];
	if (!matrix_is_peripheral_secured(MATRIX1, periph_id)) {
	piogroup->S_PIO_SIONR = pin->mask;
	return (void*) &PIOA->PIO_IO_GROUP[pin->group];
	} else {
	piogroup->S_PIO_SIOSR = pin->mask;
	return (void*) piogroup;
	}
	}

	static void* _pio_retrive_group(const struct _pin *pin, uint32_t periph_id)
	{
	if (!matrix_is_peripheral_secured(MATRIX1, periph_id)) {
	return (void*) &PIOA->PIO_IO_GROUP[pin->group];
	} else {
	return (void*) &PIOA->PIO_PIO_[pin->group];
	}
	}
	/*----------------------------------------------------------------------------
	* Exported functions
	----------------------------------------------------------------------------/

	/**
	* \brief Configures a list of Pin instances, each of which can either
	* hold a single pin or a group of pins, depending on the mask value;
	* all pins are configured by this function. The size of the array
	* must also be provided and is easily computed using ARRAY_SIZE
	* whenever its length is not known in advance.
	*
	* \param list Pointer to a list of _pin instances.
	* \param size Size of the _pin list (calculated using PIN_LISTSIZE).
	*
	* \return 1 if the pins have been configured properly; otherwise 0.
	*/
	uint8_t pio_configure(const struct _pin *pin_list, uint32_t size)
	{
	union _pio_cfg cfg;
	PioIo_group* pioiog;

	/* Configure pins */
	while (size--)
	{
	/* Enable the PIO group if needed */
	uint32_t periph_id = _pio_group_to_id(pin_list->group);

	assert(pin_list->group < PIO_GROUP_LENGTH);
	cfg.uint32_value = 0;
	pioiog = (PioIo_group*) _pio_configure_pins(pin_list, periph_id);

	if ( pin_list->attribute != PIO_DEFAULT) {
	cfg.bitfield.puen = (pin_list->attribute & PIO_PULLUP)? 1:0;
	cfg.bitfield.pden = (pin_list->attribute & PIO_PULLDOWN)? 1:0;
	cfg.bitfield.ifen = (pin_list->attribute & PIO_DEGLITCH)? 1:0;
	cfg.bitfield.ifscen = (pin_list->attribute & PIO_DEBOUNCE)? 1:0;
	cfg.bitfield.opd = (pin_list->attribute & PIO_OPENDRAIN)? 1:0;
	cfg.bitfield.schmitt =(pin_list->attribute & PIO_TRIGGER_DIS)? 1:0;

	switch (pin_list->attribute & PIO_DRVSTR_Msk) {
	case PIO_DRVSTR_HI:
	cfg.bitfield.drvstr = PIO_CFGR_DRVSTR_HI >> PIO_CFGR_DRVSTR_Pos;
	break;
	case PIO_DRVSTR_ME:
	cfg.bitfield.drvstr = PIO_CFGR_DRVSTR_ME >> PIO_CFGR_DRVSTR_Pos;
	break;
	case PIO_DRVSTR_LO:
	default:
	cfg.bitfield.drvstr = PIO_CFGR_DRVSTR_LO >> PIO_CFGR_DRVSTR_Pos;
	break;
	}

	switch (pin_list->attribute & PIO_EVTSEL_Msk) {
	case PIO_IT_HIGH_LEVEL:
	cfg.bitfield.evtsel = PIO_CFGR_EVTSEL_HIGH >> PIO_CFGR_EVTSEL_Pos;
	break;
	case PIO_IT_LOW_LEVEL:
	cfg.bitfield.evtsel = PIO_CFGR_EVTSEL_LOW >> PIO_CFGR_EVTSEL_Pos;
	break;
	case PIO_IT_BOTH_EDGE:
	cfg.bitfield.evtsel = PIO_CFGR_EVTSEL_BOTH >> PIO_CFGR_EVTSEL_Pos;
	break;
	case PIO_IT_RISE_EDGE:
	cfg.bitfield.evtsel = PIO_CFGR_EVTSEL_RISING >> PIO_CFGR_EVTSEL_Pos;
	break;
	case PIO_IT_FALL_EDGE:
	default:
	cfg.bitfield.evtsel = PIO_CFGR_EVTSEL_FALLING >> PIO_CFGR_EVTSEL_Pos;
	break;
	}
	}

	switch (pin_list->type){

	case PIO_PERIPH_A:
	cfg.bitfield.func = PIO_CFGR_FUNC_PERIPH_A >> PIO_CFGR_FUNC_Pos;
	break;
	case PIO_PERIPH_B:
	cfg.bitfield.func = PIO_CFGR_FUNC_PERIPH_B >> PIO_CFGR_FUNC_Pos;
	break;
	case PIO_PERIPH_C:
	cfg.bitfield.func = PIO_CFGR_FUNC_PERIPH_C >> PIO_CFGR_FUNC_Pos;
	break;
	case PIO_PERIPH_D:
	cfg.bitfield.func = PIO_CFGR_FUNC_PERIPH_D >> PIO_CFGR_FUNC_Pos;
	break;
	case PIO_PERIPH_E:
	cfg.bitfield.func = PIO_CFGR_FUNC_PERIPH_E >> PIO_CFGR_FUNC_Pos;
	break;
	case PIO_PERIPH_F:
	cfg.bitfield.func = PIO_CFGR_FUNC_PERIPH_F >> PIO_CFGR_FUNC_Pos;
	break;
	case PIO_GENERIC:
	case PIO_INPUT:
	cfg.bitfield.dir = 0;
	break;

	case PIO_OUTPUT_0:
	cfg.bitfield.dir = 1;
	pio_clear(pin_list);
	break;

	case PIO_OUTPUT_1:
	cfg.bitfield.dir = 1;
	pio_set(pin_list);
	break;

	default:
	case PIO_PERIPH_G:
	return 0;
	}

	pioiog->PIO_MSKR = pin_list->mask;
	pioiog->PIO_CFGR = cfg.uint32_value;
	pmc_enable_peripheral(periph_id);

	++pin_list;
	}
	return 1;
	}

	/**
	* \brief Sets a high output level on all the PIOs defined in the
	* given Pin instance. This has no immediate effects on PIOs that are
	* not output, but the PIO controller will memorize the value they are
	* changed to outputs.
	*
	* \param pin Pointer to a Pin instance describing one or more pins.
	*/
	void pio_set(const struct _pin *pin)
	{
	assert(pin->group < PIO_GROUP_LENGTH);
	uint32_t periph_id = _pio_group_to_id(pin->group);
	PioIo_group* pioiog = (PioIo_group*) _pio_retrive_group(pin, periph_id);
	pioiog->PIO_SODR = pin->mask;
	}

	/**
	* \brief Sets a low output level on all the PIOs defined in the given
	* Pin instance. This has no immediate effects on PIOs that are not
	* output, but the PIO controller will memorize the value they are
	* changed to outputs.
	*
	* \param pin Pointer to a Pin instance describing one or more pins.
	*/
	void pio_clear(const struct _pin *pin)
	{
	assert(pin->group < PIO_GROUP_LENGTH);
	uint32_t periph_id = _pio_group_to_id(pin->group);
	PioIo_group* pioiog = (PioIo_group*) _pio_retrive_group(pin, periph_id);
	pioiog->PIO_CODR = pin->mask;
	}

	/**
	* \brief Returns 1 if one or more PIO of the given Pin instance currently have
	* a high level; otherwise returns 0. This method returns the actual value that
	* is being read on the pin. To return the supposed output value of a pin, use
	* pio_get_output_date_status() instead.
	*
	* \param pin Pointer to a Pin instance describing one or more pins.
	*
	* \return 1 if the Pin instance contains at least one PIO that currently has
	* a high level; otherwise 0.
	*/
	uint8_t pio_get(const struct _pin *pin)
	{
	assert(pin->group < PIO_GROUP_LENGTH);
	uint32_t reg ;
	uint32_t periph_id = _pio_group_to_id(pin->group);
	PioIo_group* pioiog = (PioIo_group*) _pio_retrive_group(pin, periph_id);

	if ((pin->type == PIO_OUTPUT_0) \|\| (pin->type == PIO_OUTPUT_1)) {
	reg = pioiog->PIO_ODSR ;
	}
	else {
	reg = pioiog->PIO_PDSR ;
	}
	if ( (reg & pin->mask) == 0 ) {
	return 0 ;
	}
	else {
	return 1 ;
	}
	}

	/**
	* \brief Returns 1 if one or more PIO of the given Pin are configured
	* to output a high level (even if they are not output). To get the
	* actual value of the pin, use pio_get() instead.
	*
	* \param pin Pointer to a Pin instance describing one or more pins.
	*
	* \return 1 if the Pin instance contains at least one PIO that is configured
	* to output a high level; otherwise 0.
	*/
	uint8_t pio_get_output_data_status(const struct _pin *pin)
	{
	assert(pin->group < PIO_GROUP_LENGTH);
	uint32_t periph_id = _pio_group_to_id(pin->group);
	PioIo_group* pioiog = (PioIo_group*) _pio_retrive_group(pin, periph_id);

	if ((pioiog->PIO_ODSR & pin->mask) == 0) {
	return 0;
	}
	else {
	return 1;
	}
	}

	/**
	* \brief Configures Glitch or Debouncing filter for input.
	*
	* \param pin Pointer to a Pin instance describing one or more pins.
	* \param cuttoff Cutt off frequency for debounce filter.
	*/
	void pio_set_debounce_filter(const struct _pin *pin, uint32_t cuttoff)
	{
	assert(pin->group < PIO_GROUP_LENGTH);
	if (cuttoff == 0) {
	PIOA->S_PIO_SCDR = 0;
	}
	else {
	/* the lowest 14 bits work */
	PIOA->S_PIO_SCDR =
	((pmc_get_slow_clock()/(2*(cuttoff))) - 1) & 0x3FFF;
	}
	}

	/**
	* \brief Enable write protect.
	*
	* \param pin Pointer to a Pin instance describing one or more pins.
	*/
	void pio_enable_write_protect(const struct _pin *pin)
	{
	assert(pin->group < PIO_GROUP_LENGTH);
	PIOA->PIO_WPMR = (PIO_WPMR_WPKEY_VALID \| PIO_WPMR_WPEN_EN );
	}

	/**
	* \brief Disable write protect.
	*
	* \param pin Pointer to a Pin instance describing one or more pins.
	*/
	void pio_disable_write_protect(const struct _pin *pin)
	{
	assert(pin->group < PIO_GROUP_LENGTH);
	PIOA->PIO_WPMR = (PIO_WPMR_WPKEY_VALID \| PIO_WPMR_WPEN_DIS );
	}

	/**
	* \brief Get write protect violation information.
	*
	* \param pin Pointer to a Pin instance describing one or more pins.
	*/
	uint32_t pio_get_write_protect_violation_info(const struct _pin * pin)
	{
	assert(pin->group < PIO_GROUP_LENGTH);
	return PIOA->PIO_WPSR;
	}

	void pio_add_handler_to_group(uint32_t group, uint32_t mask,
	pio_handler_t handler, void* user_arg)
	{
	trace_debug("Enter in pio_add_handler_to_group()\n\r");
	assert(group <
	(sizeof(_generic_handlers)/sizeof(_generic_handlers[0])));
	_handler_push(handler, mask, user_arg);
	uint32_t id = _pio_group_to_id(group);
	aic_set_source_vector(id,
	(aic_handler_t)_generic_handlers[group]);
	aic_enable(id);
	}

	void pio_reset_all_it(void)
	{
	int i = 0;
	for (i = 0; i < PIO_GROUP_LENGTH; ++i) {
	PIOA->PIO_IO_GROUP[i].PIO_ISR;
	PIOA->PIO_IO_GROUP[i].PIO_IDR = ~0UL;
	}
	}

	/**
	* Configures a PIO or a group of PIO to generate an interrupt on status
	* change. The provided interrupt handler will be called with the triggering
	* pin as its parameter (enabling different pin instances to share the same
	* handler).
	* \param pin Pointer to a _pin instance.
	*/
	void pio_configure_it(const struct _pin *pin)
	{
	trace_debug("Enter in pio_configure_it()\n\r");
	assert(pin != NULL);
	}

	/**
	* Enables the given interrupt source if it has been configured. The status
	* register of the corresponding PIO controller is cleared prior to enabling
	* the interrupt.
	* \param pin Interrupt source to enable.
	*/
	void pio_enable_it(const struct _pin *pin)
	{
	trace_debug("pio_enable_it() \n\r");
	assert(pin != NULL);
	uint32_t periph_id = _pio_group_to_id(pin->group);
	PioIo_group* pioiog = (PioIo_group*) _pio_retrive_group(pin, periph_id);

	pioiog->PIO_ISR;
	/* Configure interrupt enable register */
	pioiog->PIO_IER = pin->mask; /* enable interrupt register */
	}

	/**
	* Disables a given interrupt source, with no added side effects.
	*
	* \param pin Interrupt source to disable.
	*/
	void pio_disable_it(const struct _pin *pin)
	{
	trace_debug("pio_enable_it()\n\r");
	assert(pin != NULL);
	uint32_t periph_id = _pio_group_to_id(pin->group);
	PioIo_group* pioiog = (PioIo_group*) _pio_retrive_group(pin, periph_id);
	pioiog->PIO_IDR = pin->mask;
	}