include/lib/utils_def.h - filogic/atf - Gitiles

 /*
  * Copyright (c) 2016-2018, ARM Limited and Contributors. All rights reserved.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 #ifndef __UTILS_DEF_H__
 #define __UTILS_DEF_H__

 /* Compute the number of elements in the given array */
 #define ARRAY_SIZE(a)				\
 	(sizeof(a) / sizeof((a)[0]))

 #define IS_POWER_OF_TWO(x)			\
 	(((x) & ((x) - 1)) == 0)

 #define SIZE_FROM_LOG2_WORDS(n)		(4 << (n))

 #define BIT(nr)				(ULL(1) << (nr))

 /*
  * This variant of div_round_up can be used in macro definition but should not
  * be used in C code as the `div` parameter is evaluated twice.
  */
 #define DIV_ROUND_UP_2EVAL(n, d)	(((n) + (d) - 1) / (d))

 #define div_round_up(val, div) __extension__ ({	\
 	__typeof__(div) _div = (div);		\
 	((val) + _div - 1) / _div;		\
 })

 #define MIN(x, y) __extension__ ({	\
 	__typeof__(x) _x = (x);		\
 	__typeof__(y) _y = (y);		\
 	(void)(&_x == &_y);		\
 	_x < _y ? _x : _y;		\
 })

 #define MAX(x, y) __extension__ ({	\
 	__typeof__(x) _x = (x);		\
 	__typeof__(y) _y = (y);		\
 	(void)(&_x == &_y);		\
 	_x > _y ? _x : _y;		\
 })

 /*
  * The round_up() macro rounds up a value to the given boundary in a
  * type-agnostic yet type-safe manner. The boundary must be a power of two.
  * In other words, it computes the smallest multiple of boundary which is
  * greater than or equal to value.
  *
  * round_down() is similar but rounds the value down instead.
  */
 #define round_boundary(value, boundary)		\
 	((__typeof__(value))((boundary) - 1))

 #define round_up(value, boundary)		\
 	((((value) - 1) | round_boundary(value, boundary)) + 1)

 #define round_down(value, boundary)		\
 	((value) & ~round_boundary(value, boundary))

 /*
  * Evaluates to 1 if (ptr + inc) overflows, 0 otherwise.
  * Both arguments must be unsigned pointer values (i.e. uintptr_t).
  */
 #define check_uptr_overflow(ptr, inc)		\
 	(((ptr) > UINTPTR_MAX - (inc)) ? 1 : 0)

 /*
  * Evaluates to 1 if (u32 + inc) overflows, 0 otherwise.
  * Both arguments must be 32-bit unsigned integers (i.e. effectively uint32_t).
  */
 #define check_u32_overflow(u32, inc) \
 	((u32) > (UINT32_MAX - (inc)) ? 1 : 0)

 /*
  * For those constants to be shared between C and other sources, apply a 'u'
  * or 'ull' suffix to the argument only in C, to avoid undefined or unintended
  * behaviour.
  *
  * The GNU assembler and linker do not support the 'u' and 'ull' suffix (it
  * causes the build process to fail) therefore the suffix is omitted when used
  * in linker scripts and assembler files.
 */
 #if defined(__LINKER__) || defined(__ASSEMBLY__)
 # define  U(_x)		(_x)
 # define ULL(_x)	(_x)
 #else
 # define  U(_x)		(_x##U)
 # define ULL(_x)	(_x##ULL)
 #endif

 /* Register size of the current architecture. */
 #ifdef AARCH32
 #define REGSZ		U(4)
 #else
 #define REGSZ		U(8)
 #endif

 /*
  * Test for the current architecture version to be at least the version
  * expected.
  */
 #define ARM_ARCH_AT_LEAST(_maj, _min) \
 	((ARM_ARCH_MAJOR > _maj) || \
 	 ((ARM_ARCH_MAJOR == _maj) && (ARM_ARCH_MINOR >= _min)))

 /*
  * Import an assembly or linker symbol as a C expression with the specified
  * type
  */
 #define IMPORT_SYM(type, sym, name) \
 	extern char sym[];\
 	static const __attribute__((unused)) type name = (type) sym;

 /*
  * When the symbol is used to hold a pointer, its alignment can be asserted
  * with this macro. For example, if there is a linker symbol that is going to
  * be used as a 64-bit pointer, the value of the linker symbol must also be
  * aligned to 64 bit. This macro makes sure this is the case.
  */
 #define ASSERT_SYM_PTR_ALIGN(sym) assert(((size_t)(sym) % __alignof__(*(sym))) == 0)


 #endif /* __UTILS_DEF_H__ */
	/*
	* Copyright (c) 2016-2018, ARM Limited and Contributors. All rights reserved.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#ifndef __UTILS_DEF_H__
	#define __UTILS_DEF_H__

	/* Compute the number of elements in the given array */
	#define ARRAY_SIZE(a) \
	(sizeof(a) / sizeof((a)[0]))

	#define IS_POWER_OF_TWO(x) \
	(((x) & ((x) - 1)) == 0)

	#define SIZE_FROM_LOG2_WORDS(n) (4 << (n))

	#define BIT(nr) (ULL(1) << (nr))

	/*
	* This variant of div_round_up can be used in macro definition but should not
	* be used in C code as the `div` parameter is evaluated twice.
	*/
	#define DIV_ROUND_UP_2EVAL(n, d) (((n) + (d) - 1) / (d))

	#define div_round_up(val, div) __extension__ ({ \
	__typeof__(div) _div = (div); \
	((val) + _div - 1) / _div; \
	})

	#define MIN(x, y) __extension__ ({ \
	__typeof__(x) _x = (x); \
	__typeof__(y) _y = (y); \
	(void)(&_x == &_y); \
	_x < _y ? _x : _y; \
	})

	#define MAX(x, y) __extension__ ({ \
	__typeof__(x) _x = (x); \
	__typeof__(y) _y = (y); \
	(void)(&_x == &_y); \
	_x > _y ? _x : _y; \
	})

	/*
	* The round_up() macro rounds up a value to the given boundary in a
	* type-agnostic yet type-safe manner. The boundary must be a power of two.
	* In other words, it computes the smallest multiple of boundary which is
	* greater than or equal to value.
	*
	* round_down() is similar but rounds the value down instead.
	*/
	#define round_boundary(value, boundary) \
	((__typeof__(value))((boundary) - 1))

	#define round_up(value, boundary) \
	((((value) - 1) \| round_boundary(value, boundary)) + 1)

	#define round_down(value, boundary) \
	((value) & ~round_boundary(value, boundary))

	/*
	* Evaluates to 1 if (ptr + inc) overflows, 0 otherwise.
	* Both arguments must be unsigned pointer values (i.e. uintptr_t).
	*/
	#define check_uptr_overflow(ptr, inc) \
	(((ptr) > UINTPTR_MAX - (inc)) ? 1 : 0)

	/*
	* Evaluates to 1 if (u32 + inc) overflows, 0 otherwise.
	* Both arguments must be 32-bit unsigned integers (i.e. effectively uint32_t).
	*/
	#define check_u32_overflow(u32, inc) \
	((u32) > (UINT32_MAX - (inc)) ? 1 : 0)

	/*
	* For those constants to be shared between C and other sources, apply a 'u'
	* or 'ull' suffix to the argument only in C, to avoid undefined or unintended
	* behaviour.
	*
	* The GNU assembler and linker do not support the 'u' and 'ull' suffix (it
	* causes the build process to fail) therefore the suffix is omitted when used
	* in linker scripts and assembler files.
	*/
	#if defined(__LINKER__) \|\| defined(__ASSEMBLY__)
	# define U(_x) (_x)
	# define ULL(_x) (_x)
	#else
	# define U(_x) (_x##U)
	# define ULL(_x) (_x##ULL)
	#endif

	/* Register size of the current architecture. */
	#ifdef AARCH32
	#define REGSZ U(4)
	#else
	#define REGSZ U(8)
	#endif

	/*
	* Test for the current architecture version to be at least the version
	* expected.
	*/
	#define ARM_ARCH_AT_LEAST(_maj, _min) \
	((ARM_ARCH_MAJOR > _maj) \|\| \
	((ARM_ARCH_MAJOR == _maj) && (ARM_ARCH_MINOR >= _min)))

	/*
	* Import an assembly or linker symbol as a C expression with the specified
	* type
	*/
	#define IMPORT_SYM(type, sym, name) \
	extern char sym[];\
	static const __attribute__((unused)) type name = (type) sym;

	/*
	* When the symbol is used to hold a pointer, its alignment can be asserted
	* with this macro. For example, if there is a linker symbol that is going to
	* be used as a 64-bit pointer, the value of the linker symbol must also be
	* aligned to 64 bit. This macro makes sure this is the case.
	*/
	#define ASSERT_SYM_PTR_ALIGN(sym) assert(((size_t)(sym) % __alignof__(*(sym))) == 0)


	#endif /* __UTILS_DEF_H__ */