FreeRTOS/Demo/CORTEX_M0+_Atmel_SAMD20_XPlained/RTOSDemo/src/ASF/sam0/drivers/system/pinmux/pinmux.h - nest-detect/1.0.1/freertos - Git at Google

 /**
  * \file
  *
  * \brief SAM D20 Pin Multiplexer Driver
  *
  * Copyright (C) 2012-2013 Atmel Corporation. All rights reserved.
  *
  * \asf_license_start
  *
  * \page License
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are met:
  *
  * 1. Redistributions of source code must retain the above copyright notice,
  *    this list of conditions and the following disclaimer.
  *
  * 2. Redistributions in binary form must reproduce the above copyright notice,
  *    this list of conditions and the following disclaimer in the documentation
  *    and/or other materials provided with the distribution.
  *
  * 3. The name of Atmel may not be used to endorse or promote products derived
  *    from this software without specific prior written permission.
  *
  * 4. This software may only be redistributed and used in connection with an
  *    Atmel microcontroller product.
  *
  * 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
  * EXPRESSLY AND SPECIFICALLY 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.
  *
  * \asf_license_stop
  *
  */
 #ifndef PINMUX_H_INCLUDED
 #define PINMUX_H_INCLUDED

 /**
  * \defgroup asfdoc_samd20_system_pinmux_group SAM D20 System Pin Multiplexer Driver (SYSTEM PINMUX)
  *
  * This driver for SAM D20 devices provides an interface for the configuration
  * and management of the device's physical I/O Pins, to alter the direction and
  * input/drive characteristics as well as to configure the pin peripheral
  * multiplexer selection.
  *
  * The following peripherals are used by this module:
  *
  *  - PORT (Port I/O Management)
  *
  * Physically, the modules are interconnected within the device as shown in the
  * following diagram:
  *
  * The outline of this documentation is as follows:
  *  - \ref asfdoc_samd20_system_pinmux_prerequisites
  *  - \ref asfdoc_samd20_system_pinmux_module_overview
  *  - \ref asfdoc_samd20_system_pinmux_special_considerations
  *  - \ref asfdoc_samd20_system_pinmux_extra_info
  *  - \ref asfdoc_samd20_system_pinmux_examples
  *  - \ref asfdoc_samd20_system_pinmux_api_overview
  *
  *
  * \section asfdoc_samd20_system_pinmux_prerequisites Prerequisites
  *
  * There are no prerequisites for this module.
  *
  *
  * \section asfdoc_samd20_system_pinmux_module_overview Module Overview
  *
  * The SAM D20 devices contain a number of General Purpose I/O pins, used to
  * interface the user application logic and internal hardware peripherals to
  * an external system. The Pin Multiplexer (PINMUX) driver provides a method
  * of configuring the individual pin peripheral multiplexers to select
  * alternate pin functions,
  *
  * \subsection asfdoc_samd20_system_pinmux_physical_logical_pins Physical and Logical GPIO Pins
  * SAM D20 devices use two naming conventions for the I/O pins in the device; one
  * physical, and one logical. Each physical pin on a device package is assigned
  * both a physical port and pin identifier (e.g. "PORTA.0") as well as a
  * monotonically incrementing logical GPIO number (e.g. "GPIO0"). While the
  * former is used to map physical pins to their physical internal device module
  * counterparts, for simplicity the design of this driver uses the logical GPIO
  * numbers instead.
  *
  * \subsection asfdoc_samd20_system_pinmux_peripheral_muxing Peripheral Multiplexing
  * SAM D20 devices contain a peripheral MUX, which is individually controllable
  * for each I/O pin of the device. The peripheral MUX allows you to select the
  * function of a physical package pin - whether it will be controlled as a user
  * controllable GPIO pin, or whether it will be connected internally to one of
  * several peripheral modules (such as an I<SUP>2</SUP>C module). When a pin is
  * configured in GPIO mode, other peripherals connected to the same pin will be
  * disabled.
  *
  * \subsection asfdoc_samd20_system_pinmux_pad_characteristics Special Pad Characteristics
  * There are several special modes that can be selected on one or more I/O pins
  * of the device, which alter the input and output characteristics of the pad:
  *
  * \subsubsection asfdoc_samd20_system_pinmux_drive_strength Drive Strength
  * The Drive Strength configures the strength of the output driver on the
  * pad. Normally, there is a fixed current limit that each I/O pin can safely
  * drive, however some I/O pads offer a higher drive mode which increases this
  * limit for that I/O pin at the expense of an increased power consumption.
  *
  * \subsubsection asfdoc_samd20_system_pinmux_slew_rate Slew Rate
  * The Slew Rate configures the slew rate of the output driver, limiting the
  * rate at which the pad output voltage can change with time.
  *
  * \subsubsection asfdoc_samd20_system_pinmux_input_sample_mode Input Sample Mode
  * The Input Sample Mode configures the input sampler buffer of the pad. By
  * default, the input buffer is only sampled "on-demand", i.e. when the user
  * application attempts to read from the input buffer. This mode is the most
  * power efficient, but increases the latency of the input sample by two clock
  * cycles of the port clock. To reduce latency, the input sampler can instead
  * be configured to always sample the input buffer on each port clock cycle, at
  * the expense of an increased power consumption.
  *
  * \subsection asfdoc_samd20_system_pinmux_module_overview_physical Physical Connection
  *
  * \ref asfdoc_samd20_system_pinmux_intconnections "The diagram below" shows
  * how this module is interconnected within the device:
  *
  * \anchor asfdoc_samd20_system_pinmux_intconnections
  * \dot
  * digraph overview {
  *   node [label="Port Pad" shape=square] pad;
  *
  *   subgraph driver {
  *     node [label="Peripheral Mux" shape=trapezium] pinmux;
  *     node [label="GPIO Module" shape=ellipse shape=ellipse style=filled fillcolor=lightgray] gpio;
  *     node [label="Other Peripheral Modules" shape=ellipse style=filled fillcolor=lightgray] peripherals;
  *   }
  *
  *   pinmux -> gpio;
  *   pad    -> pinmux;
  *   pinmux -> peripherals;
  * }
  * \enddot
  *
  * \section asfdoc_samd20_system_pinmux_special_considerations Special Considerations
  *
  * The SAM D20 port pin input sampling mode is set in groups of four physical
  * pins; setting the sampling mode of any pin in a sub-group of four I/O pins
  * will configure the sampling mode of the entire sub-group.
  *
  * High Drive Strength output driver mode is not available on all device pins -
  * refer to your device specific datasheet.
  *
  *
  * \section asfdoc_samd20_system_pinmux_extra_info Extra Information
  *
  * For extra information see \ref asfdoc_samd20_system_pinmux_extra. This includes:
  *  - \ref asfdoc_samd20_system_pinmux_extra_acronyms
  *  - \ref asfdoc_samd20_system_pinmux_extra_dependencies
  *  - \ref asfdoc_samd20_system_pinmux_extra_errata
  *  - \ref asfdoc_samd20_system_pinmux_extra_history
  *
  *
  * \section asfdoc_samd20_system_pinmux_examples Examples
  *
  * For a list of examples related to this driver, see
  * \ref asfdoc_samd20_system_pinmux_exqsg.
  *
  *
  * \section asfdoc_samd20_system_pinmux_api_overview API Overview
  * @{
  */

 #include <compiler.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /** Peripheral multiplexer index to select GPIO mode for a pin. */
 #define SYSTEM_PINMUX_GPIO    (1 << 7)

 /**
  * \brief Port pin direction configuration enum.
  *
  * Enum for the possible pin direction settings of the port pin configuration
  * structure, to indicate the direction the pin should use.
  */
 enum system_pinmux_pin_dir {
 	/** The pin's input buffer should be enabled, so that the pin state can
 	 *  be read. */
 	SYSTEM_PINMUX_PIN_DIR_INPUT,
 	/** The pin's output buffer should be enabled, so that the pin state can
 	 *  be set (but not read back). */
 	SYSTEM_PINMUX_PIN_DIR_OUTPUT,
 	/** The pin's output and input buffers should both be enabled, so that the
 	 *  pin state can be set and read back. */
 	SYSTEM_PINMUX_PIN_DIR_OUTPUT_WITH_READBACK,
 };

 /**
  * \brief Port pin input pull configuration enum.
  *
  * Enum for the possible pin pull settings of the port pin configuration
  * structure, to indicate the type of logic level pull the pin should use.
  */
 enum system_pinmux_pin_pull {
 	/** No logical pull should be applied to the pin. */
 	SYSTEM_PINMUX_PIN_PULL_NONE,
 	/** Pin should be pulled up when idle. */
 	SYSTEM_PINMUX_PIN_PULL_UP,
 	/** Pin should be pulled down when idle. */
 	SYSTEM_PINMUX_PIN_PULL_DOWN,
 };

 /**
  * \brief Port pin digital input sampling mode enum.
  *
  * Enum for the possible input sampling modes for the port pin configuration
  * structure, to indicate the type of sampling a port pin should use.
  */
 enum system_pinmux_pin_sample {
 	/** Pin input buffer should continuously sample the pin state. */
 	SYSTEM_PINMUX_PIN_SAMPLE_CONTINUOUS,
 	/** Pin input buffer should be enabled when the IN register is read. */
 	SYSTEM_PINMUX_PIN_SAMPLE_ONDEMAND,
 };

 /**
  * \brief Port pin drive output strength enum.
  *
  * Enum for the possible output drive strengths for the port pin
  * configuration structure, to indicate the driver strength the pin should
  * use.
  */
 enum system_pinmux_pin_strength {
 	/** Normal output driver strength. */
 	SYSTEM_PINMUX_PIN_STRENGTH_NORMAL,
 	/** High current output driver strength. */
 	SYSTEM_PINMUX_PIN_STRENGTH_HIGH,
 };

 /**
  * \brief Port pin output slew rate enum.
  *
  * Enum for the possible output drive slew rates for the port pin
  * configuration structure, to indicate the driver slew rate the pin should
  * use.
  */
 enum system_pinmux_pin_slew_rate {
 	/** Normal pin output slew rate. */
 	SYSTEM_PINMUX_PIN_SLEW_RATE_NORMAL,
 	/** Enable slew rate limiter on the pin. */
 	SYSTEM_PINMUX_PIN_SLEW_RATE_LIMITED,
 };

 /**
  * \brief Port pin output drive mode enum.
  *
  * Enum for the possible output drive modes for the port pin configuration
  * structure, to indicate the output mode the pin should use.
  */
 enum system_pinmux_pin_drive {
 	/** Use totem pole output drive mode. */
 	SYSTEM_PINMUX_PIN_DRIVE_TOTEM,
 	/** Use open drain output drive mode. */
 	SYSTEM_PINMUX_PIN_DRIVE_OPEN_DRAIN,
 };

 /**
  * \brief Port pin configuration structure.
  *
  * Configuration structure for a port pin instance. This structure should be
  * structure should be initialized by the
  * \ref system_pinmux_get_config_defaults() function before being modified by
  * the user application.
  */
 struct system_pinmux_config {
 	/** MUX index of the peripheral that should control the pin, if peripheral
 	 *  control is desired. For GPIO use, this should be set to
 	 *  \ref SYSTEM_PINMUX_GPIO. */
 	uint8_t mux_position;

 	/** Port buffer input/output direction. */
 	enum system_pinmux_pin_dir direction;

 	/** Logic level pull of the input buffer. */
 	enum system_pinmux_pin_pull input_pull;
 };

 /** \name Configuration and initialization
  * @{
  */

 /**
  * \brief Initializes a Port pin configuration structure to defaults.
  *
  * Initializes a given Port pin configuration structure to a set of
  * known default values. This function should be called on all new
  * instances of these configuration structures before being modified by the
  * user application.
  *
  * The default configuration is as follows:
  *  \li Non peripheral (i.e. GPIO) controlled
  *  \li Input mode with internal pull-up enabled
  *
  * \param[out] config  Configuration structure to initialize to default values
  */
 static inline void system_pinmux_get_config_defaults(
 		struct system_pinmux_config *const config)
 {
 	/* Sanity check arguments */
 	Assert(config);

 	/* Default configuration values */
 	config->mux_position = SYSTEM_PINMUX_GPIO;
 	config->direction    = SYSTEM_PINMUX_PIN_DIR_INPUT;
 	config->input_pull   = SYSTEM_PINMUX_PIN_PULL_UP;
 }

 void system_pinmux_pin_set_config(
 		const uint8_t gpio_pin,
 		const struct system_pinmux_config *const config);

 void system_pinmux_group_set_config(
 		PortGroup *const port,
 		const uint32_t mask,
 		const struct system_pinmux_config *const config);

 /** @} */

 /** \name Special mode configuration (physical group orientated)
  *  @{
  */

 /**
  * \brief Retrieves the PORT module group instance from a given GPIO pin number.
  *
  * Retrieves the PORT module group instance associated with a given logical
  * GPIO pin number.
  *
  * \param[in] gpio_pin  Index of the GPIO pin to convert.
  *
  * \return Base address of the associated PORT module.
  */
 static inline PortGroup* system_pinmux_get_group_from_gpio_pin(
 		const uint8_t gpio_pin)
 {
 	uint8_t port_index  = (gpio_pin / 128);
 	uint8_t group_index = (gpio_pin / 32);

 	/* Array of available ports. */
 	Port *const ports[PORT_INST_NUM] = PORT_INSTS;

 	if (port_index < PORT_INST_NUM) {
 		return &(ports[port_index]->Group[group_index]);
 	} else {
 		Assert(false);
 		return NULL;
 	}
 }

 void system_pinmux_group_set_input_sample_mode(
 		PortGroup *const port,
 		const uint32_t mask,
 		const enum system_pinmux_pin_sample mode);

 void system_pinmux_group_set_output_strength(
 		PortGroup *const port,
 		const uint32_t mask,
 		const enum system_pinmux_pin_strength mode);

 void system_pinmux_group_set_output_slew_rate(
 		PortGroup *const port,
 		const uint32_t mask,
 		const enum system_pinmux_pin_slew_rate mode);

 void system_pinmux_group_set_output_drive(
 		PortGroup *const port,
 		const uint32_t mask,
 		const enum system_pinmux_pin_drive mode);

 /** @} */

 /** \name Special mode configuration (logical pin orientated)
  *  @{
  */

 /**
  * \brief Retrieves the currently selected MUX position of a logical pin.
  *
  * Retrieves the selected MUX peripheral on a given logical GPIO pin.
  *
  * \param[in]  gpio_pin  Index of the GPIO pin to configure.
  *
  * \return Currently selected peripheral index on the specified pin.
  */
 static inline uint8_t system_pinmux_pin_get_mux_position(
 		const uint8_t gpio_pin)
 {
 	PortGroup *const port = system_pinmux_get_group_from_gpio_pin(gpio_pin);
 	uint32_t pin_index = (gpio_pin % 32);

 	if (!(port->PINCFG[pin_index].reg & PORT_PINCFG_PMUXEN)) {
 		return SYSTEM_PINMUX_GPIO;
 	}

 	uint32_t pmux_reg = port->PMUX[pin_index / 2].reg;

 	if (pin_index & 1) {
 		return (pmux_reg & PORT_PMUX_PMUXO_Msk) >> PORT_PMUX_PMUXO_Pos;
 	}
 	else {
 		return (pmux_reg & PORT_PMUX_PMUXE_Msk) >> PORT_PMUX_PMUXE_Pos;
 	}
 }

 /**
  * \brief Configures the input sampling mode for a GPIO pin.
  *
  * Configures the input sampling mode for a GPIO input, to
  * control when the physical I/O pin value is sampled and
  * stored inside the microcontroller.
  *
  * \param[in] gpio_pin Index of the GPIO pin to configure.
  * \param[in] mode     New pin sampling mode to configure.
  */
 static inline void system_pinmux_pin_set_input_sample_mode(
 		const uint8_t gpio_pin,
 		const enum system_pinmux_pin_sample mode)
 {
 	PortGroup* const port = system_pinmux_get_group_from_gpio_pin(gpio_pin);
 	uint32_t sample_quad_mask = (1UL << ((gpio_pin % 32) / 4));

 	if (mode == SYSTEM_PINMUX_PIN_SAMPLE_ONDEMAND) {
 		port->CTRL.reg |=  sample_quad_mask;
 	}
 	else {
 		port->CTRL.reg &= ~sample_quad_mask;
 	}
 }

 /**
  * \brief Configures the output driver strength mode for a GPIO pin.
  *
  * Configures the output drive strength for a GPIO output, to
  * control the amount of current the pad is able to sink/source.
  *
  * \param[in] gpio_pin  Index of the GPIO pin to configure.
  * \param[in] mode      New output driver strength mode to configure.
  */
 static inline void system_pinmux_pin_set_output_strength(
 		const uint8_t gpio_pin,
 		const enum system_pinmux_pin_strength mode)
 {
 	PortGroup* const port = system_pinmux_get_group_from_gpio_pin(gpio_pin);
 	uint32_t pin_index = (gpio_pin % 32);

 	if (mode == SYSTEM_PINMUX_PIN_STRENGTH_HIGH) {
 		port->PINCFG[pin_index].reg |=  PORT_PINCFG_DRVSTR;
 	}
 	else {
 		port->PINCFG[pin_index].reg &= ~PORT_PINCFG_DRVSTR;
 	}
 }

 /**
  * \brief Configures the output slew rate mode for a GPIO pin.
  *
  * Configures the output slew rate mode for a GPIO output, to
  * control the speed at which the physical output pin can react to
  * logical changes of the I/O pin value.
  *
  * \param[in] gpio_pin  Index of the GPIO pin to configure.
  * \param[in] mode      New pin slew rate mode to configure.
  */
 static inline void system_pinmux_pin_set_output_slew_rate(
 		const uint8_t gpio_pin,
 		const enum system_pinmux_pin_slew_rate mode)
 {
 	PortGroup* const port = system_pinmux_get_group_from_gpio_pin(gpio_pin);
 	uint32_t pin_index = (gpio_pin % 32);

 	if (mode == SYSTEM_PINMUX_PIN_SLEW_RATE_LIMITED) {
 		port->PINCFG[pin_index].reg |=  PORT_PINCFG_SLEWLIM;
 	}
 	else {
 		port->PINCFG[pin_index].reg &= ~PORT_PINCFG_SLEWLIM;
 	}
 }

 /**
  * \brief Configures the output driver mode for a GPIO pin.
  *
  * Configures the output driver mode for a GPIO output, to
  * control the pad behavior.
  *
  * \param[in] gpio_pin  Index of the GPIO pin to configure.
  * \param[in] mode      New pad output driver mode to configure.
  */
 static inline void system_pinmux_pin_set_output_drive(
 		const uint8_t gpio_pin,
 		const enum system_pinmux_pin_drive mode)
 {
 	PortGroup* const port = system_pinmux_get_group_from_gpio_pin(gpio_pin);
 	uint32_t pin_index = (gpio_pin % 32);

 	if (mode == SYSTEM_PINMUX_PIN_DRIVE_OPEN_DRAIN) {
 		port->PINCFG[pin_index].reg |=  PORT_PINCFG_ODRAIN;
 	}
 	else {
 		port->PINCFG[pin_index].reg &= ~PORT_PINCFG_ODRAIN;
 	}
 }

 /** @} */

 #ifdef __cplusplus
 }
 #endif

 /** @} */

 /**
  * \page asfdoc_samd20_system_pinmux_extra Extra Information for SYSTEM PINMUX Driver
  *
  * \section asfdoc_samd20_system_pinmux_extra_acronyms Acronyms
  * The table below presents the acronyms used in this module:
  *
  * <table>
  *	<tr>
  *		<th>Acronym</th>
  *		<th>Description</th>
  *	</tr>
  *	<tr>
  *		<td>GPIO</td>
  *		<td>General Purpose Input/Output</td>
  *	</tr>
  *	<tr>
  *		<td>MUX</td>
  *		<td>Multiplexer</td>
  *	</tr>
  * </table>
  *
  *
  * \section asfdoc_samd20_system_pinmux_extra_dependencies Dependencies
  * This driver has the following dependencies:
  *
  *  - None
  *
  *
  * \section asfdoc_samd20_system_pinmux_extra_errata Errata
  * There are no errata related to this driver.
  *
  *
  * \section asfdoc_samd20_system_pinmux_extra_history Module History
  * An overview of the module history is presented in the table below, with
  * details on the enhancements and fixes made to the module since its first
  * release. The current version of this corresponds to the newest version in
  * the table.
  *
  * <table>
  *	<tr>
  *		<th>Changelog</th>
  *	</tr>
  *	<tr>
  *		<td>Added missing NULL pointer asserts to the PORT driver functions.</td>
  *	</tr>
  *	<tr>
  *		<td>Initial Release</td>
  *	</tr>
  * </table>
  */

 /**
  * \page asfdoc_samd20_system_pinmux_exqsg Examples for SYSTEM PINMUX Driver
  *
  * This is a list of the available Quick Start guides (QSGs) and example
  * applications for \ref asfdoc_samd20_system_pinmux_group. QSGs are simple
  * examples with step-by-step instructions to configure and use this driver in a
  * selection of use cases. Note that QSGs can be compiled as a standalone
  * application or be added to the user application.
  *
  *  - \subpage asfdoc_samd20_system_pinmux_basic_use_case
  *
  * \page asfdoc_samd20_system_pinmux_document_revision_history Document Revision History
  *
  * <table>
  *	<tr>
  *		<th>Doc. Rev.</td>
  *		<th>Date</td>
  *		<th>Comments</td>
  *	</tr>
  *	<tr>
  *		<td>B</td>
  *		<td>06/2013</td>
  *		<td>Corrected documentation typos.</td>
  *	</tr>
  *	<tr>
  *		<td>A</td>
  *		<td>06/2013</td>
  *		<td>Initial release</td>
  *	</tr>
  * </table>
  */

 #endif
	/**
	* \file
	*
	* \brief SAM D20 Pin Multiplexer Driver
	*
	* Copyright (C) 2012-2013 Atmel Corporation. All rights reserved.
	*
	* \asf_license_start
	*
	* \page License
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are met:
	*
	* 1. Redistributions of source code must retain the above copyright notice,
	* this list of conditions and the following disclaimer.
	*
	* 2. Redistributions in binary form must reproduce the above copyright notice,
	* this list of conditions and the following disclaimer in the documentation
	* and/or other materials provided with the distribution.
	*
	* 3. The name of Atmel may not be used to endorse or promote products derived
	* from this software without specific prior written permission.
	*
	* 4. This software may only be redistributed and used in connection with an
	* Atmel microcontroller product.
	*
	* 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
	* EXPRESSLY AND SPECIFICALLY 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.
	*
	* \asf_license_stop
	*
	*/
	#ifndef PINMUX_H_INCLUDED
	#define PINMUX_H_INCLUDED

	/**
	* \defgroup asfdoc_samd20_system_pinmux_group SAM D20 System Pin Multiplexer Driver (SYSTEM PINMUX)
	*
	* This driver for SAM D20 devices provides an interface for the configuration
	* and management of the device's physical I/O Pins, to alter the direction and
	* input/drive characteristics as well as to configure the pin peripheral
	* multiplexer selection.
	*
	* The following peripherals are used by this module:
	*
	* - PORT (Port I/O Management)
	*
	* Physically, the modules are interconnected within the device as shown in the
	* following diagram:
	*
	* The outline of this documentation is as follows:
	* - \ref asfdoc_samd20_system_pinmux_prerequisites
	* - \ref asfdoc_samd20_system_pinmux_module_overview
	* - \ref asfdoc_samd20_system_pinmux_special_considerations
	* - \ref asfdoc_samd20_system_pinmux_extra_info
	* - \ref asfdoc_samd20_system_pinmux_examples
	* - \ref asfdoc_samd20_system_pinmux_api_overview
	*
	*
	* \section asfdoc_samd20_system_pinmux_prerequisites Prerequisites
	*
	* There are no prerequisites for this module.
	*
	*
	* \section asfdoc_samd20_system_pinmux_module_overview Module Overview
	*
	* The SAM D20 devices contain a number of General Purpose I/O pins, used to
	* interface the user application logic and internal hardware peripherals to
	* an external system. The Pin Multiplexer (PINMUX) driver provides a method
	* of configuring the individual pin peripheral multiplexers to select
	* alternate pin functions,
	*
	* \subsection asfdoc_samd20_system_pinmux_physical_logical_pins Physical and Logical GPIO Pins
	* SAM D20 devices use two naming conventions for the I/O pins in the device; one
	* physical, and one logical. Each physical pin on a device package is assigned
	* both a physical port and pin identifier (e.g. "PORTA.0") as well as a
	* monotonically incrementing logical GPIO number (e.g. "GPIO0"). While the
	* former is used to map physical pins to their physical internal device module
	* counterparts, for simplicity the design of this driver uses the logical GPIO
	* numbers instead.
	*
	* \subsection asfdoc_samd20_system_pinmux_peripheral_muxing Peripheral Multiplexing
	* SAM D20 devices contain a peripheral MUX, which is individually controllable
	* for each I/O pin of the device. The peripheral MUX allows you to select the
	* function of a physical package pin - whether it will be controlled as a user
	* controllable GPIO pin, or whether it will be connected internally to one of
	* several peripheral modules (such as an I<SUP>2</SUP>C module). When a pin is
	* configured in GPIO mode, other peripherals connected to the same pin will be
	* disabled.
	*
	* \subsection asfdoc_samd20_system_pinmux_pad_characteristics Special Pad Characteristics
	* There are several special modes that can be selected on one or more I/O pins
	* of the device, which alter the input and output characteristics of the pad:
	*
	* \subsubsection asfdoc_samd20_system_pinmux_drive_strength Drive Strength
	* The Drive Strength configures the strength of the output driver on the
	* pad. Normally, there is a fixed current limit that each I/O pin can safely
	* drive, however some I/O pads offer a higher drive mode which increases this
	* limit for that I/O pin at the expense of an increased power consumption.
	*
	* \subsubsection asfdoc_samd20_system_pinmux_slew_rate Slew Rate
	* The Slew Rate configures the slew rate of the output driver, limiting the
	* rate at which the pad output voltage can change with time.
	*
	* \subsubsection asfdoc_samd20_system_pinmux_input_sample_mode Input Sample Mode
	* The Input Sample Mode configures the input sampler buffer of the pad. By
	* default, the input buffer is only sampled "on-demand", i.e. when the user
	* application attempts to read from the input buffer. This mode is the most
	* power efficient, but increases the latency of the input sample by two clock
	* cycles of the port clock. To reduce latency, the input sampler can instead
	* be configured to always sample the input buffer on each port clock cycle, at
	* the expense of an increased power consumption.
	*
	* \subsection asfdoc_samd20_system_pinmux_module_overview_physical Physical Connection
	*
	* \ref asfdoc_samd20_system_pinmux_intconnections "The diagram below" shows
	* how this module is interconnected within the device:
	*
	* \anchor asfdoc_samd20_system_pinmux_intconnections
	* \dot
	* digraph overview {
	* node [label="Port Pad" shape=square] pad;
	*
	* subgraph driver {
	* node [label="Peripheral Mux" shape=trapezium] pinmux;
	* node [label="GPIO Module" shape=ellipse shape=ellipse style=filled fillcolor=lightgray] gpio;
	* node [label="Other Peripheral Modules" shape=ellipse style=filled fillcolor=lightgray] peripherals;
	* }
	*
	* pinmux -> gpio;
	* pad -> pinmux;
	* pinmux -> peripherals;
	* }
	* \enddot
	*
	* \section asfdoc_samd20_system_pinmux_special_considerations Special Considerations
	*
	* The SAM D20 port pin input sampling mode is set in groups of four physical
	* pins; setting the sampling mode of any pin in a sub-group of four I/O pins
	* will configure the sampling mode of the entire sub-group.
	*
	* High Drive Strength output driver mode is not available on all device pins -
	* refer to your device specific datasheet.
	*
	*
	* \section asfdoc_samd20_system_pinmux_extra_info Extra Information
	*
	* For extra information see \ref asfdoc_samd20_system_pinmux_extra. This includes:
	* - \ref asfdoc_samd20_system_pinmux_extra_acronyms
	* - \ref asfdoc_samd20_system_pinmux_extra_dependencies
	* - \ref asfdoc_samd20_system_pinmux_extra_errata
	* - \ref asfdoc_samd20_system_pinmux_extra_history
	*
	*
	* \section asfdoc_samd20_system_pinmux_examples Examples
	*
	* For a list of examples related to this driver, see
	* \ref asfdoc_samd20_system_pinmux_exqsg.
	*
	*
	* \section asfdoc_samd20_system_pinmux_api_overview API Overview
	* @{
	*/

	#include <compiler.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/** Peripheral multiplexer index to select GPIO mode for a pin. */
	#define SYSTEM_PINMUX_GPIO (1 << 7)

	/**
	* \brief Port pin direction configuration enum.
	*
	* Enum for the possible pin direction settings of the port pin configuration
	* structure, to indicate the direction the pin should use.
	*/
	enum system_pinmux_pin_dir {
	/** The pin's input buffer should be enabled, so that the pin state can
	* be read. */
	SYSTEM_PINMUX_PIN_DIR_INPUT,
	/** The pin's output buffer should be enabled, so that the pin state can
	* be set (but not read back). */
	SYSTEM_PINMUX_PIN_DIR_OUTPUT,
	/** The pin's output and input buffers should both be enabled, so that the
	* pin state can be set and read back. */
	SYSTEM_PINMUX_PIN_DIR_OUTPUT_WITH_READBACK,
	};

	/**
	* \brief Port pin input pull configuration enum.
	*
	* Enum for the possible pin pull settings of the port pin configuration
	* structure, to indicate the type of logic level pull the pin should use.
	*/
	enum system_pinmux_pin_pull {
	/** No logical pull should be applied to the pin. */
	SYSTEM_PINMUX_PIN_PULL_NONE,
	/** Pin should be pulled up when idle. */
	SYSTEM_PINMUX_PIN_PULL_UP,
	/** Pin should be pulled down when idle. */
	SYSTEM_PINMUX_PIN_PULL_DOWN,
	};

	/**
	* \brief Port pin digital input sampling mode enum.
	*
	* Enum for the possible input sampling modes for the port pin configuration
	* structure, to indicate the type of sampling a port pin should use.
	*/
	enum system_pinmux_pin_sample {
	/** Pin input buffer should continuously sample the pin state. */
	SYSTEM_PINMUX_PIN_SAMPLE_CONTINUOUS,
	/** Pin input buffer should be enabled when the IN register is read. */
	SYSTEM_PINMUX_PIN_SAMPLE_ONDEMAND,
	};

	/**
	* \brief Port pin drive output strength enum.
	*
	* Enum for the possible output drive strengths for the port pin
	* configuration structure, to indicate the driver strength the pin should
	* use.
	*/
	enum system_pinmux_pin_strength {
	/** Normal output driver strength. */
	SYSTEM_PINMUX_PIN_STRENGTH_NORMAL,
	/** High current output driver strength. */
	SYSTEM_PINMUX_PIN_STRENGTH_HIGH,
	};

	/**
	* \brief Port pin output slew rate enum.
	*
	* Enum for the possible output drive slew rates for the port pin
	* configuration structure, to indicate the driver slew rate the pin should
	* use.
	*/
	enum system_pinmux_pin_slew_rate {
	/** Normal pin output slew rate. */
	SYSTEM_PINMUX_PIN_SLEW_RATE_NORMAL,
	/** Enable slew rate limiter on the pin. */
	SYSTEM_PINMUX_PIN_SLEW_RATE_LIMITED,
	};

	/**
	* \brief Port pin output drive mode enum.
	*
	* Enum for the possible output drive modes for the port pin configuration
	* structure, to indicate the output mode the pin should use.
	*/
	enum system_pinmux_pin_drive {
	/** Use totem pole output drive mode. */
	SYSTEM_PINMUX_PIN_DRIVE_TOTEM,
	/** Use open drain output drive mode. */
	SYSTEM_PINMUX_PIN_DRIVE_OPEN_DRAIN,
	};

	/**
	* \brief Port pin configuration structure.
	*
	* Configuration structure for a port pin instance. This structure should be
	* structure should be initialized by the
	* \ref system_pinmux_get_config_defaults() function before being modified by
	* the user application.
	*/
	struct system_pinmux_config {
	/** MUX index of the peripheral that should control the pin, if peripheral
	* control is desired. For GPIO use, this should be set to
	* \ref SYSTEM_PINMUX_GPIO. */
	uint8_t mux_position;

	/** Port buffer input/output direction. */
	enum system_pinmux_pin_dir direction;

	/** Logic level pull of the input buffer. */
	enum system_pinmux_pin_pull input_pull;
	};

	/** \name Configuration and initialization
	* @{
	*/

	/**
	* \brief Initializes a Port pin configuration structure to defaults.
	*
	* Initializes a given Port pin configuration structure to a set of
	* known default values. This function should be called on all new
	* instances of these configuration structures before being modified by the
	* user application.
	*
	* The default configuration is as follows:
	* \li Non peripheral (i.e. GPIO) controlled
	* \li Input mode with internal pull-up enabled
	*
	* \param[out] config Configuration structure to initialize to default values
	*/
	static inline void system_pinmux_get_config_defaults(
	struct system_pinmux_config *const config)
	{
	/* Sanity check arguments */
	Assert(config);

	/* Default configuration values */
	config->mux_position = SYSTEM_PINMUX_GPIO;
	config->direction = SYSTEM_PINMUX_PIN_DIR_INPUT;
	config->input_pull = SYSTEM_PINMUX_PIN_PULL_UP;
	}

	void system_pinmux_pin_set_config(
	const uint8_t gpio_pin,
	const struct system_pinmux_config *const config);

	void system_pinmux_group_set_config(
	PortGroup *const port,
	const uint32_t mask,
	const struct system_pinmux_config *const config);

	/** @} */

	/** \name Special mode configuration (physical group orientated)
	* @{
	*/

	/**
	* \brief Retrieves the PORT module group instance from a given GPIO pin number.
	*
	* Retrieves the PORT module group instance associated with a given logical
	* GPIO pin number.
	*
	* \param[in] gpio_pin Index of the GPIO pin to convert.
	*
	* \return Base address of the associated PORT module.
	*/
	static inline PortGroup* system_pinmux_get_group_from_gpio_pin(
	const uint8_t gpio_pin)
	{
	uint8_t port_index = (gpio_pin / 128);
	uint8_t group_index = (gpio_pin / 32);

	/* Array of available ports. */
	Port *const ports[PORT_INST_NUM] = PORT_INSTS;

	if (port_index < PORT_INST_NUM) {
	return &(ports[port_index]->Group[group_index]);
	} else {
	Assert(false);
	return NULL;
	}
	}

	void system_pinmux_group_set_input_sample_mode(
	PortGroup *const port,
	const uint32_t mask,
	const enum system_pinmux_pin_sample mode);

	void system_pinmux_group_set_output_strength(
	PortGroup *const port,
	const uint32_t mask,
	const enum system_pinmux_pin_strength mode);

	void system_pinmux_group_set_output_slew_rate(
	PortGroup *const port,
	const uint32_t mask,
	const enum system_pinmux_pin_slew_rate mode);

	void system_pinmux_group_set_output_drive(
	PortGroup *const port,
	const uint32_t mask,
	const enum system_pinmux_pin_drive mode);

	/** @} */

	/** \name Special mode configuration (logical pin orientated)
	* @{
	*/

	/**
	* \brief Retrieves the currently selected MUX position of a logical pin.
	*
	* Retrieves the selected MUX peripheral on a given logical GPIO pin.
	*
	* \param[in] gpio_pin Index of the GPIO pin to configure.
	*
	* \return Currently selected peripheral index on the specified pin.
	*/
	static inline uint8_t system_pinmux_pin_get_mux_position(
	const uint8_t gpio_pin)
	{
	PortGroup *const port = system_pinmux_get_group_from_gpio_pin(gpio_pin);
	uint32_t pin_index = (gpio_pin % 32);

	if (!(port->PINCFG[pin_index].reg & PORT_PINCFG_PMUXEN)) {
	return SYSTEM_PINMUX_GPIO;
	}

	uint32_t pmux_reg = port->PMUX[pin_index / 2].reg;

	if (pin_index & 1) {
	return (pmux_reg & PORT_PMUX_PMUXO_Msk) >> PORT_PMUX_PMUXO_Pos;
	}
	else {
	return (pmux_reg & PORT_PMUX_PMUXE_Msk) >> PORT_PMUX_PMUXE_Pos;
	}
	}

	/**
	* \brief Configures the input sampling mode for a GPIO pin.
	*
	* Configures the input sampling mode for a GPIO input, to
	* control when the physical I/O pin value is sampled and
	* stored inside the microcontroller.
	*
	* \param[in] gpio_pin Index of the GPIO pin to configure.
	* \param[in] mode New pin sampling mode to configure.
	*/
	static inline void system_pinmux_pin_set_input_sample_mode(
	const uint8_t gpio_pin,
	const enum system_pinmux_pin_sample mode)
	{
	PortGroup* const port = system_pinmux_get_group_from_gpio_pin(gpio_pin);
	uint32_t sample_quad_mask = (1UL << ((gpio_pin % 32) / 4));

	if (mode == SYSTEM_PINMUX_PIN_SAMPLE_ONDEMAND) {
	port->CTRL.reg \|= sample_quad_mask;
	}
	else {
	port->CTRL.reg &= ~sample_quad_mask;
	}
	}

	/**
	* \brief Configures the output driver strength mode for a GPIO pin.
	*
	* Configures the output drive strength for a GPIO output, to
	* control the amount of current the pad is able to sink/source.
	*
	* \param[in] gpio_pin Index of the GPIO pin to configure.
	* \param[in] mode New output driver strength mode to configure.
	*/
	static inline void system_pinmux_pin_set_output_strength(
	const uint8_t gpio_pin,
	const enum system_pinmux_pin_strength mode)
	{
	PortGroup* const port = system_pinmux_get_group_from_gpio_pin(gpio_pin);
	uint32_t pin_index = (gpio_pin % 32);

	if (mode == SYSTEM_PINMUX_PIN_STRENGTH_HIGH) {
	port->PINCFG[pin_index].reg \|= PORT_PINCFG_DRVSTR;
	}
	else {
	port->PINCFG[pin_index].reg &= ~PORT_PINCFG_DRVSTR;
	}
	}

	/**
	* \brief Configures the output slew rate mode for a GPIO pin.
	*
	* Configures the output slew rate mode for a GPIO output, to
	* control the speed at which the physical output pin can react to
	* logical changes of the I/O pin value.
	*
	* \param[in] gpio_pin Index of the GPIO pin to configure.
	* \param[in] mode New pin slew rate mode to configure.
	*/
	static inline void system_pinmux_pin_set_output_slew_rate(
	const uint8_t gpio_pin,
	const enum system_pinmux_pin_slew_rate mode)
	{
	PortGroup* const port = system_pinmux_get_group_from_gpio_pin(gpio_pin);
	uint32_t pin_index = (gpio_pin % 32);

	if (mode == SYSTEM_PINMUX_PIN_SLEW_RATE_LIMITED) {
	port->PINCFG[pin_index].reg \|= PORT_PINCFG_SLEWLIM;
	}
	else {
	port->PINCFG[pin_index].reg &= ~PORT_PINCFG_SLEWLIM;
	}
	}

	/**
	* \brief Configures the output driver mode for a GPIO pin.
	*
	* Configures the output driver mode for a GPIO output, to
	* control the pad behavior.
	*
	* \param[in] gpio_pin Index of the GPIO pin to configure.
	* \param[in] mode New pad output driver mode to configure.
	*/
	static inline void system_pinmux_pin_set_output_drive(
	const uint8_t gpio_pin,
	const enum system_pinmux_pin_drive mode)
	{
	PortGroup* const port = system_pinmux_get_group_from_gpio_pin(gpio_pin);
	uint32_t pin_index = (gpio_pin % 32);

	if (mode == SYSTEM_PINMUX_PIN_DRIVE_OPEN_DRAIN) {
	port->PINCFG[pin_index].reg \|= PORT_PINCFG_ODRAIN;
	}
	else {
	port->PINCFG[pin_index].reg &= ~PORT_PINCFG_ODRAIN;
	}
	}

	/** @} */

	#ifdef __cplusplus
	}
	#endif

	/** @} */

	/**
	* \page asfdoc_samd20_system_pinmux_extra Extra Information for SYSTEM PINMUX Driver
	*
	* \section asfdoc_samd20_system_pinmux_extra_acronyms Acronyms
	* The table below presents the acronyms used in this module:
	*
	* <table>
	* <tr>
	* <th>Acronym</th>
	* <th>Description</th>
	* </tr>
	* <tr>
	* <td>GPIO</td>
	* <td>General Purpose Input/Output</td>
	* </tr>
	* <tr>
	* <td>MUX</td>
	* <td>Multiplexer</td>
	* </tr>
	* </table>
	*
	*
	* \section asfdoc_samd20_system_pinmux_extra_dependencies Dependencies
	* This driver has the following dependencies:
	*
	* - None
	*
	*
	* \section asfdoc_samd20_system_pinmux_extra_errata Errata
	* There are no errata related to this driver.
	*
	*
	* \section asfdoc_samd20_system_pinmux_extra_history Module History
	* An overview of the module history is presented in the table below, with
	* details on the enhancements and fixes made to the module since its first
	* release. The current version of this corresponds to the newest version in
	* the table.
	*
	* <table>
	* <tr>
	* <th>Changelog</th>
	* </tr>
	* <tr>
	* <td>Added missing NULL pointer asserts to the PORT driver functions.</td>
	* </tr>
	* <tr>
	* <td>Initial Release</td>
	* </tr>
	* </table>
	*/

	/**
	* \page asfdoc_samd20_system_pinmux_exqsg Examples for SYSTEM PINMUX Driver
	*
	* This is a list of the available Quick Start guides (QSGs) and example
	* applications for \ref asfdoc_samd20_system_pinmux_group. QSGs are simple
	* examples with step-by-step instructions to configure and use this driver in a
	* selection of use cases. Note that QSGs can be compiled as a standalone
	* application or be added to the user application.
	*
	* - \subpage asfdoc_samd20_system_pinmux_basic_use_case
	*
	* \page asfdoc_samd20_system_pinmux_document_revision_history Document Revision History
	*
	* <table>
	* <tr>
	* <th>Doc. Rev.</td>
	* <th>Date</td>
	* <th>Comments</td>
	* </tr>
	* <tr>
	* <td>B</td>
	* <td>06/2013</td>
	* <td>Corrected documentation typos.</td>
	* </tr>
	* <tr>
	* <td>A</td>
	* <td>06/2013</td>
	* <td>Initial release</td>
	* </tr>
	* </table>
	*/

	#endif