FreeRTOS/Demo/CORTEX_SmartFusion2_M2S050_SoftConsole/RTOSDemo_Hardware_Platform/hal/hal.h - third_party/github/FreeRTOS/FreeRTOS-Kernel - Git at Google

 /***************************************************************************//**
  * (c) Copyright 2007-2013 Microsemi SoC Products Group. All rights reserved.
  *
  * Hardware abstraction layer functions.
  *
  * SVN $Revision: 5258 $
  * SVN $Date: 2013-03-21 12:41:02 +0000 (Thu, 21 Mar 2013) $
  */
 #ifndef HAL_H_
 #define HAL_H_

 #include "cpu_types.h"
 #include "hw_reg_access.h"

 /***************************************************************************//**
  * Enable all interrupts at the processor level.
  */
 void HAL_enable_interrupts( void );

 /***************************************************************************//**
  * Disable all interrupts at the processor core level.
  * Return the interrupts enable state before disabling occured so that it can
  * later be restored.
  */
 psr_t HAL_disable_interrupts( void );

 /***************************************************************************//**
  * Restore the interrupts enable state at the processor core level.
  * This function is normally passed the value returned from a previous call to
  * HAL_disable_interrupts().
  */
 void HAL_restore_interrupts( psr_t saved_psr );

 /***************************************************************************//**
  */
 #define FIELD_OFFSET(FIELD_NAME)  (FIELD_NAME##_OFFSET)
 #define FIELD_SHIFT(FIELD_NAME)   (FIELD_NAME##_SHIFT)
 #define FIELD_MASK(FIELD_NAME)    (FIELD_NAME##_MASK)

 /***************************************************************************//**
  * The macro HAL_set_32bit_reg() allows writing a 32 bits wide register.
  *
  * BASE_ADDR:   A variable of type addr_t specifying the base address of the
  *              peripheral containing the register.
  * REG_NAME:    A string identifying the register to write. These strings are
  *              specified in a header file associated with the peripheral.
  * VALUE:       A variable of type uint32_t containing the value to write.
  */
 #define HAL_set_32bit_reg(BASE_ADDR, REG_NAME, VALUE) \
           (HW_set_32bit_reg( ((BASE_ADDR) + (REG_NAME##_REG_OFFSET)), (VALUE) ))

 /***************************************************************************//**
  * The macro HAL_get_32bit_reg() is used to read the value  of a 32 bits wide
  * register.
  *
  * BASE_ADDR:   A variable of type addr_t specifying the base address of the
  *              peripheral containing the register.
  * REG_NAME:    A string identifying the register to read. These strings are
  *              specified in a header file associated with the peripheral.
  * RETURN:		This function-like macro returns a uint32_t value.
  */
 #define HAL_get_32bit_reg(BASE_ADDR, REG_NAME) \
           (HW_get_32bit_reg( ((BASE_ADDR) + (REG_NAME##_REG_OFFSET)) ))

 /***************************************************************************//**
  * The macro HAL_set_32bit_reg_field() is used to write a field within a
  * 32 bits wide register. The field written can be one or more bits.
  *
  * BASE_ADDR:   A variable of type addr_t specifying the base address of the
  *              peripheral containing the register.
  * FIELD_NAME:  A string identifying the register field to write. These strings
  * 				are specified in a header file associated with the peripheral.
  * VALUE:       A variable of type uint32_t containing the field value to write.
  */
 #define HAL_set_32bit_reg_field(BASE_ADDR, FIELD_NAME, VALUE) \
             (HW_set_32bit_reg_field(\
                 (BASE_ADDR) + FIELD_OFFSET(FIELD_NAME),\
                 FIELD_SHIFT(FIELD_NAME),\
                 FIELD_MASK(FIELD_NAME),\
                 (VALUE)))

 /***************************************************************************//**
  * The macro HAL_get_32bit_reg_field() is used to read a register field from
  * within a 32 bit wide peripheral register. The field can be one or more bits.
  *
  * BASE_ADDR:   A variable of type addr_t specifying the base address of the
  *              peripheral containing the register.
  * FIELD_NAME:  A string identifying the register field to write. These strings
  * 				are specified in a header file associated with the peripheral.
  * RETURN:		This function-like macro returns a uint32_t value.
  */
 #define HAL_get_32bit_reg_field(BASE_ADDR, FIELD_NAME) \
             (HW_get_32bit_reg_field(\
                 (BASE_ADDR) + FIELD_OFFSET(FIELD_NAME),\
                 FIELD_SHIFT(FIELD_NAME),\
                 FIELD_MASK(FIELD_NAME)))

 /***************************************************************************//**
  * The macro HAL_set_16bit_reg() allows writing a 16 bits wide register.
  *
  * BASE_ADDR:   A variable of type addr_t specifying the base address of the
  *              peripheral containing the register.
  * REG_NAME:    A string identifying the register to write. These strings are
  *              specified in a header file associated with the peripheral.
  * VALUE:       A variable of type uint_fast16_t containing the value to write.
  */
 #define HAL_set_16bit_reg(BASE_ADDR, REG_NAME, VALUE) \
             (HW_set_16bit_reg( ((BASE_ADDR) + (REG_NAME##_REG_OFFSET)), (VALUE) ))

 /***************************************************************************//**
  * The macro HAL_get_16bit_reg() is used to read the value  of a 16 bits wide
  * register.
  *
  * BASE_ADDR:   A variable of type addr_t specifying the base address of the
  *              peripheral containing the register.
  * REG_NAME:    A string identifying the register to read. These strings are
  *              specified in a header file associated with the peripheral.
  * RETURN:		This function-like macro returns a uint16_t value.
  */
 #define HAL_get_16bit_reg(BASE_ADDR, REG_NAME) \
             (HW_get_16bit_reg( (BASE_ADDR) + (REG_NAME##_REG_OFFSET) ))

 /***************************************************************************//**
  * The macro HAL_set_16bit_reg_field() is used to write a field within a
  * 16 bits wide register. The field written can be one or more bits.
  *
  * BASE_ADDR:   A variable of type addr_t specifying the base address of the
  *              peripheral containing the register.
  * FIELD_NAME:  A string identifying the register field to write. These strings
  * 				are specified in a header file associated with the peripheral.
  * VALUE:       A variable of type uint16_t containing the field value to write.
  */
 #define HAL_set_16bit_reg_field(BASE_ADDR, FIELD_NAME, VALUE) \
             (HW_set_16bit_reg_field(\
                 (BASE_ADDR) + FIELD_OFFSET(FIELD_NAME),\
                 FIELD_SHIFT(FIELD_NAME),\
                 FIELD_MASK(FIELD_NAME),\
                 (VALUE)))

 /***************************************************************************//**
  * The macro HAL_get_16bit_reg_field() is used to read a register field from
  * within a 8 bit wide peripheral register. The field can be one or more bits.
  *
  * BASE_ADDR:   A variable of type addr_t specifying the base address of the
  *              peripheral containing the register.
  * FIELD_NAME:  A string identifying the register field to write. These strings
  * 				are specified in a header file associated with the peripheral.
  * RETURN:		This function-like macro returns a uint16_t value.
  */
 #define HAL_get_16bit_reg_field(BASE_ADDR, FIELD_NAME) \
             (HW_get_16bit_reg_field(\
                 (BASE_ADDR) + FIELD_OFFSET(FIELD_NAME),\
                 FIELD_SHIFT(FIELD_NAME),\
                 FIELD_MASK(FIELD_NAME)))

 /***************************************************************************//**
  * The macro HAL_set_8bit_reg() allows writing a 8 bits wide register.
  *
  * BASE_ADDR:   A variable of type addr_t specifying the base address of the
  *              peripheral containing the register.
  * REG_NAME:    A string identifying the register to write. These strings are
  *              specified in a header file associated with the peripheral.
  * VALUE:       A variable of type uint_fast8_t containing the value to write.
  */
 #define HAL_set_8bit_reg(BASE_ADDR, REG_NAME, VALUE) \
           (HW_set_8bit_reg( ((BASE_ADDR) + (REG_NAME##_REG_OFFSET)), (VALUE) ))

 /***************************************************************************//**
  * The macro HAL_get_8bit_reg() is used to read the value of a 8 bits wide
  * register.
  *
  * BASE_ADDR:   A variable of type addr_t specifying the base address of the
  *              peripheral containing the register.
  * REG_NAME:    A string identifying the register to read. These strings are
  *              specified in a header file associated with the peripheral.
  * RETURN:		This function-like macro returns a uint8_t value.
  */
 #define HAL_get_8bit_reg(BASE_ADDR, REG_NAME) \
           (HW_get_8bit_reg( (BASE_ADDR) + (REG_NAME##_REG_OFFSET) ))

 /***************************************************************************//**
  */
 #define HAL_set_8bit_reg_field(BASE_ADDR, FIELD_NAME, VALUE) \
             (HW_set_8bit_reg_field(\
                 (BASE_ADDR) + FIELD_OFFSET(FIELD_NAME),\
                 FIELD_SHIFT(FIELD_NAME),\
                 FIELD_MASK(FIELD_NAME),\
                 (VALUE)))

 /***************************************************************************//**
  * The macro HAL_get_8bit_reg_field() is used to read a register field from
  * within a 8 bit wide peripheral register. The field can be one or more bits.
  *
  * BASE_ADDR:   A variable of type addr_t specifying the base address of the
  *              peripheral containing the register.
  * FIELD_NAME:  A string identifying the register field to write. These strings
  * 				are specified in a header file associated with the peripheral.
  * RETURN:		This function-like macro returns a uint8_t value.
  */
 #define HAL_get_8bit_reg_field(BASE_ADDR, FIELD_NAME) \
             (HW_get_8bit_reg_field(\
                 (BASE_ADDR) + FIELD_OFFSET(FIELD_NAME),\
                 FIELD_SHIFT(FIELD_NAME),\
                 FIELD_MASK(FIELD_NAME)))

 #endif /*HAL_H_*/
	/*************************************************************************//
	* (c) Copyright 2007-2013 Microsemi SoC Products Group. All rights reserved.
	*
	* Hardware abstraction layer functions.
	*
	* SVN $Revision: 5258 $
	* SVN $Date: 2013-03-21 12:41:02 +0000 (Thu, 21 Mar 2013) $
	*/
	#ifndef HAL_H_
	#define HAL_H_

	#include "cpu_types.h"
	#include "hw_reg_access.h"

	/*************************************************************************//
	* Enable all interrupts at the processor level.
	*/
	void HAL_enable_interrupts( void );

	/*************************************************************************//
	* Disable all interrupts at the processor core level.
	* Return the interrupts enable state before disabling occured so that it can
	* later be restored.
	*/
	psr_t HAL_disable_interrupts( void );

	/*************************************************************************//
	* Restore the interrupts enable state at the processor core level.
	* This function is normally passed the value returned from a previous call to
	* HAL_disable_interrupts().
	*/
	void HAL_restore_interrupts( psr_t saved_psr );

	/*************************************************************************//
	*/
	#define FIELD_OFFSET(FIELD_NAME) (FIELD_NAME##_OFFSET)
	#define FIELD_SHIFT(FIELD_NAME) (FIELD_NAME##_SHIFT)
	#define FIELD_MASK(FIELD_NAME) (FIELD_NAME##_MASK)

	/*************************************************************************//
	* The macro HAL_set_32bit_reg() allows writing a 32 bits wide register.
	*
	* BASE_ADDR: A variable of type addr_t specifying the base address of the
	* peripheral containing the register.
	* REG_NAME: A string identifying the register to write. These strings are
	* specified in a header file associated with the peripheral.
	* VALUE: A variable of type uint32_t containing the value to write.
	*/
	#define HAL_set_32bit_reg(BASE_ADDR, REG_NAME, VALUE) \
	(HW_set_32bit_reg( ((BASE_ADDR) + (REG_NAME##_REG_OFFSET)), (VALUE) ))

	/*************************************************************************//
	* The macro HAL_get_32bit_reg() is used to read the value of a 32 bits wide
	* register.
	*
	* BASE_ADDR: A variable of type addr_t specifying the base address of the
	* peripheral containing the register.
	* REG_NAME: A string identifying the register to read. These strings are
	* specified in a header file associated with the peripheral.
	* RETURN: This function-like macro returns a uint32_t value.
	*/
	#define HAL_get_32bit_reg(BASE_ADDR, REG_NAME) \
	(HW_get_32bit_reg( ((BASE_ADDR) + (REG_NAME##_REG_OFFSET)) ))

	/*************************************************************************//
	* The macro HAL_set_32bit_reg_field() is used to write a field within a
	* 32 bits wide register. The field written can be one or more bits.
	*
	* BASE_ADDR: A variable of type addr_t specifying the base address of the
	* peripheral containing the register.
	* FIELD_NAME: A string identifying the register field to write. These strings
	* are specified in a header file associated with the peripheral.
	* VALUE: A variable of type uint32_t containing the field value to write.
	*/
	#define HAL_set_32bit_reg_field(BASE_ADDR, FIELD_NAME, VALUE) \
	(HW_set_32bit_reg_field(\
	(BASE_ADDR) + FIELD_OFFSET(FIELD_NAME),\
	FIELD_SHIFT(FIELD_NAME),\
	FIELD_MASK(FIELD_NAME),\
	(VALUE)))

	/*************************************************************************//
	* The macro HAL_get_32bit_reg_field() is used to read a register field from
	* within a 32 bit wide peripheral register. The field can be one or more bits.
	*
	* BASE_ADDR: A variable of type addr_t specifying the base address of the
	* peripheral containing the register.
	* FIELD_NAME: A string identifying the register field to write. These strings
	* are specified in a header file associated with the peripheral.
	* RETURN: This function-like macro returns a uint32_t value.
	*/
	#define HAL_get_32bit_reg_field(BASE_ADDR, FIELD_NAME) \
	(HW_get_32bit_reg_field(\
	(BASE_ADDR) + FIELD_OFFSET(FIELD_NAME),\
	FIELD_SHIFT(FIELD_NAME),\
	FIELD_MASK(FIELD_NAME)))

	/*************************************************************************//
	* The macro HAL_set_16bit_reg() allows writing a 16 bits wide register.
	*
	* BASE_ADDR: A variable of type addr_t specifying the base address of the
	* peripheral containing the register.
	* REG_NAME: A string identifying the register to write. These strings are
	* specified in a header file associated with the peripheral.
	* VALUE: A variable of type uint_fast16_t containing the value to write.
	*/
	#define HAL_set_16bit_reg(BASE_ADDR, REG_NAME, VALUE) \
	(HW_set_16bit_reg( ((BASE_ADDR) + (REG_NAME##_REG_OFFSET)), (VALUE) ))

	/*************************************************************************//
	* The macro HAL_get_16bit_reg() is used to read the value of a 16 bits wide
	* register.
	*
	* BASE_ADDR: A variable of type addr_t specifying the base address of the
	* peripheral containing the register.
	* REG_NAME: A string identifying the register to read. These strings are
	* specified in a header file associated with the peripheral.
	* RETURN: This function-like macro returns a uint16_t value.
	*/
	#define HAL_get_16bit_reg(BASE_ADDR, REG_NAME) \
	(HW_get_16bit_reg( (BASE_ADDR) + (REG_NAME##_REG_OFFSET) ))

	/*************************************************************************//
	* The macro HAL_set_16bit_reg_field() is used to write a field within a
	* 16 bits wide register. The field written can be one or more bits.
	*
	* BASE_ADDR: A variable of type addr_t specifying the base address of the
	* peripheral containing the register.
	* FIELD_NAME: A string identifying the register field to write. These strings
	* are specified in a header file associated with the peripheral.
	* VALUE: A variable of type uint16_t containing the field value to write.
	*/
	#define HAL_set_16bit_reg_field(BASE_ADDR, FIELD_NAME, VALUE) \
	(HW_set_16bit_reg_field(\
	(BASE_ADDR) + FIELD_OFFSET(FIELD_NAME),\
	FIELD_SHIFT(FIELD_NAME),\
	FIELD_MASK(FIELD_NAME),\
	(VALUE)))

	/*************************************************************************//
	* The macro HAL_get_16bit_reg_field() is used to read a register field from
	* within a 8 bit wide peripheral register. The field can be one or more bits.
	*
	* BASE_ADDR: A variable of type addr_t specifying the base address of the
	* peripheral containing the register.
	* FIELD_NAME: A string identifying the register field to write. These strings
	* are specified in a header file associated with the peripheral.
	* RETURN: This function-like macro returns a uint16_t value.
	*/
	#define HAL_get_16bit_reg_field(BASE_ADDR, FIELD_NAME) \
	(HW_get_16bit_reg_field(\
	(BASE_ADDR) + FIELD_OFFSET(FIELD_NAME),\
	FIELD_SHIFT(FIELD_NAME),\
	FIELD_MASK(FIELD_NAME)))

	/*************************************************************************//
	* The macro HAL_set_8bit_reg() allows writing a 8 bits wide register.
	*
	* BASE_ADDR: A variable of type addr_t specifying the base address of the
	* peripheral containing the register.
	* REG_NAME: A string identifying the register to write. These strings are
	* specified in a header file associated with the peripheral.
	* VALUE: A variable of type uint_fast8_t containing the value to write.
	*/
	#define HAL_set_8bit_reg(BASE_ADDR, REG_NAME, VALUE) \
	(HW_set_8bit_reg( ((BASE_ADDR) + (REG_NAME##_REG_OFFSET)), (VALUE) ))

	/*************************************************************************//
	* The macro HAL_get_8bit_reg() is used to read the value of a 8 bits wide
	* register.
	*
	* BASE_ADDR: A variable of type addr_t specifying the base address of the
	* peripheral containing the register.
	* REG_NAME: A string identifying the register to read. These strings are
	* specified in a header file associated with the peripheral.
	* RETURN: This function-like macro returns a uint8_t value.
	*/
	#define HAL_get_8bit_reg(BASE_ADDR, REG_NAME) \
	(HW_get_8bit_reg( (BASE_ADDR) + (REG_NAME##_REG_OFFSET) ))

	/*************************************************************************//
	*/
	#define HAL_set_8bit_reg_field(BASE_ADDR, FIELD_NAME, VALUE) \
	(HW_set_8bit_reg_field(\
	(BASE_ADDR) + FIELD_OFFSET(FIELD_NAME),\
	FIELD_SHIFT(FIELD_NAME),\
	FIELD_MASK(FIELD_NAME),\
	(VALUE)))

	/*************************************************************************//
	* The macro HAL_get_8bit_reg_field() is used to read a register field from
	* within a 8 bit wide peripheral register. The field can be one or more bits.
	*
	* BASE_ADDR: A variable of type addr_t specifying the base address of the
	* peripheral containing the register.
	* FIELD_NAME: A string identifying the register field to write. These strings
	* are specified in a header file associated with the peripheral.
	* RETURN: This function-like macro returns a uint8_t value.
	*/
	#define HAL_get_8bit_reg_field(BASE_ADDR, FIELD_NAME) \
	(HW_get_8bit_reg_field(\
	(BASE_ADDR) + FIELD_OFFSET(FIELD_NAME),\
	FIELD_SHIFT(FIELD_NAME),\
	FIELD_MASK(FIELD_NAME)))

	#endif /HAL_H_/