satip-axe/kernel/drivers/stm/mali/common/mali_osk_bitops.h

/*
 * Copyright (C) 2010-2011 ARM Limited. All rights reserved.
 * 
 * This program is free software and is provided to you under the terms of the GNU General Public License version 2
 * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence.
 * 
 * A copy of the licence is included with the program, and can also be obtained from Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
 */

/**
 * @file mali_osk_bitops.h
 * Implementation of the OS abstraction layer for the kernel device driver
 */

#ifndef __MALI_OSK_BITOPS_H__
#define __MALI_OSK_BITOPS_H__

#ifdef __cplusplus
extern "C"
{
#endif

MALI_STATIC_INLINE void _mali_internal_clear_bit( u32 bit, u32 *addr )
{
	MALI_DEBUG_ASSERT( bit < 32 );
	MALI_DEBUG_ASSERT( NULL != addr );

	(*addr) &= ~(1 << bit);
}

MALI_STATIC_INLINE void _mali_internal_set_bit( u32 bit, u32 *addr )
{
	MALI_DEBUG_ASSERT( bit < 32 );
	MALI_DEBUG_ASSERT( NULL != addr );

	(*addr) |= (1 << bit);
}

MALI_STATIC_INLINE u32 _mali_internal_test_bit( u32 bit, u32 value )
{
	MALI_DEBUG_ASSERT( bit < 32 );
	return value & (1 << bit);
}

MALI_STATIC_INLINE int _mali_internal_find_first_zero_bit( u32 value )
{
	u32 inverted;
	u32 negated;
	u32 isolated;
	u32 leading_zeros;

	/* Begin with xxx...x0yyy...y, where ys are 1, number of ys is in range  0..31 */
	inverted = ~value; /* zzz...z1000...0 */
	/* Using count_trailing_zeros on inverted value -
	 * See ARM System Developers Guide for details of count_trailing_zeros */

	/* Isolate the zero: it is preceeded by a run of 1s, so add 1 to it */
	negated = (u32)-inverted ; /* -a == ~a + 1 (mod 2^n) for n-bit numbers */
    /* negated = xxx...x1000...0 */

	isolated = negated & inverted ; /* xxx...x1000...0 & zzz...z1000...0, zs are ~xs */
	/* And so the first zero bit is in the same position as the 1 == number of 1s that preceeded it
	 * Note that the output is zero if value was all 1s */

	leading_zeros = _mali_osk_clz( isolated );

	return 31 - leading_zeros;
}


/** @defgroup _mali_osk_bitops OSK Non-atomic Bit-operations
 * @{ */

/**
 * These bit-operations do not work atomically, and so locks must be used if
 * atomicity is required.
 *
 * Reference implementations for Little Endian are provided, and so it should
 * not normally be necessary to re-implement these. Efficient bit-twiddling
 * techniques are used where possible, implemented in portable C.
 *
 * Note that these reference implementations rely on _mali_osk_clz() being
 * implemented.
 */

/** @brief Clear a bit in a sequence of 32-bit words
 * @param nr bit number to clear, starting from the (Little-endian) least
 * significant bit
 * @param addr starting point for counting.
 */
MALI_STATIC_INLINE void _mali_osk_clear_nonatomic_bit( u32 nr, u32 *addr )
{
	addr += nr >> 5; /* find the correct word */
	nr = nr & ((1 << 5)-1); /* The bit number within the word */

	_mali_internal_clear_bit( nr, addr );
}

/** @brief Set a bit in a sequence of 32-bit words
 * @param nr bit number to set, starting from the (Little-endian) least
 * significant bit
 * @param addr starting point for counting.
 */
MALI_STATIC_INLINE void _mali_osk_set_nonatomic_bit( u32 nr, u32 *addr )
{
	addr += nr >> 5; /* find the correct word */
	nr = nr & ((1 << 5)-1); /* The bit number within the word */

	_mali_internal_set_bit( nr, addr );
}

/** @brief Test a bit in a sequence of 32-bit words
 * @param nr bit number to test, starting from the (Little-endian) least
 * significant bit
 * @param addr starting point for counting.
 * @return zero if bit was clear, non-zero if set. Do not rely on the return
 * value being related to the actual word under test.
 */
MALI_STATIC_INLINE u32 _mali_osk_test_bit( u32 nr, u32 *addr )
{
	addr += nr >> 5; /* find the correct word */
	nr = nr & ((1 << 5)-1); /* The bit number within the word */

	return _mali_internal_test_bit( nr, *addr );
}

/* Return maxbit if not found */
/** @brief Find the first zero bit in a sequence of 32-bit words
 * @param addr starting point for search.
 * @param maxbit the maximum number of bits to search
 * @return the number of the first zero bit found, or maxbit if none were found
 * in the specified range.
 */
MALI_STATIC_INLINE u32 _mali_osk_find_first_zero_bit( const u32 *addr, u32 maxbit )
{
	u32 total;

	for ( total = 0; total < maxbit; total += 32, ++addr )
	{
		int result;
		result = _mali_internal_find_first_zero_bit( *addr );

		/* non-negative signifies the bit was found */
		if ( result >= 0 )
		{
			total += (u32)result;
			break;
		}
	}

	/* Now check if we reached maxbit or above */
	if ( total >= maxbit )
	{
		total = maxbit;
	}

	return total; /* either the found bit nr, or maxbit if not found */
}
/** @} */ /* end group _mali_osk_bitops */

#ifdef __cplusplus
}
#endif

#endif /* __MALI_OSK_BITOPS_H__ */
add idl4k kernel firmware version 1.13.0.105 2015-03-26 17:22:37 +01:00			`/*`
			`* Copyright (C) 2010-2011 ARM Limited. All rights reserved.`
			`*`
			`* This program is free software and is provided to you under the terms of the GNU General Public License version 2`
			`* as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence.`
			`*`
			`* A copy of the licence is included with the program, and can also be obtained from Free Software`
			`* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.`
			`*/`

			`/**`
			`* @file mali_osk_bitops.h`
			`* Implementation of the OS abstraction layer for the kernel device driver`
			`*/`

			`#ifndef __MALI_OSK_BITOPS_H__`
			`#define __MALI_OSK_BITOPS_H__`

			`#ifdef __cplusplus`
			`extern "C"`
			`{`
			`#endif`

			`MALI_STATIC_INLINE void _mali_internal_clear_bit( u32 bit, u32 *addr )`
			`{`
			`MALI_DEBUG_ASSERT( bit < 32 );`
			`MALI_DEBUG_ASSERT( NULL != addr );`

			`(*addr) &= ~(1 << bit);`
			`}`

			`MALI_STATIC_INLINE void _mali_internal_set_bit( u32 bit, u32 *addr )`
			`{`
			`MALI_DEBUG_ASSERT( bit < 32 );`
			`MALI_DEBUG_ASSERT( NULL != addr );`

			`(*addr) \|= (1 << bit);`
			`}`

			`MALI_STATIC_INLINE u32 _mali_internal_test_bit( u32 bit, u32 value )`
			`{`
			`MALI_DEBUG_ASSERT( bit < 32 );`
			`return value & (1 << bit);`
			`}`

			`MALI_STATIC_INLINE int _mali_internal_find_first_zero_bit( u32 value )`
			`{`
			`u32 inverted;`
			`u32 negated;`
			`u32 isolated;`
			`u32 leading_zeros;`

			`/* Begin with xxx...x0yyy...y, where ys are 1, number of ys is in range 0..31 */`
			`inverted = ~value; /* zzz...z1000...0 */`
			`/* Using count_trailing_zeros on inverted value -`
			`* See ARM System Developers Guide for details of count_trailing_zeros */`

			`/* Isolate the zero: it is preceeded by a run of 1s, so add 1 to it */`
			`negated = (u32)-inverted ; /* -a == ~a + 1 (mod 2^n) for n-bit numbers */`
			`/* negated = xxx...x1000...0 */`

			`isolated = negated & inverted ; /* xxx...x1000...0 & zzz...z1000...0, zs are ~xs */`
			`/* And so the first zero bit is in the same position as the 1 == number of 1s that preceeded it`
			`* Note that the output is zero if value was all 1s */`

			`leading_zeros = _mali_osk_clz( isolated );`

			`return 31 - leading_zeros;`
			`}`


			`/** @defgroup _mali_osk_bitops OSK Non-atomic Bit-operations`
			`* @{ */`

			`/**`
			`* These bit-operations do not work atomically, and so locks must be used if`
			`* atomicity is required.`
			`*`
			`* Reference implementations for Little Endian are provided, and so it should`
			`* not normally be necessary to re-implement these. Efficient bit-twiddling`
			`* techniques are used where possible, implemented in portable C.`
			`*`
			`* Note that these reference implementations rely on _mali_osk_clz() being`
			`* implemented.`
			`*/`

			`/** @brief Clear a bit in a sequence of 32-bit words`
			`* @param nr bit number to clear, starting from the (Little-endian) least`
			`* significant bit`
			`* @param addr starting point for counting.`
			`*/`
			`MALI_STATIC_INLINE void _mali_osk_clear_nonatomic_bit( u32 nr, u32 *addr )`
			`{`
			`addr += nr >> 5; /* find the correct word */`
			`nr = nr & ((1 << 5)-1); /* The bit number within the word */`

			`_mali_internal_clear_bit( nr, addr );`
			`}`

			`/** @brief Set a bit in a sequence of 32-bit words`
			`* @param nr bit number to set, starting from the (Little-endian) least`
			`* significant bit`
			`* @param addr starting point for counting.`
			`*/`
			`MALI_STATIC_INLINE void _mali_osk_set_nonatomic_bit( u32 nr, u32 *addr )`
			`{`
			`addr += nr >> 5; /* find the correct word */`
			`nr = nr & ((1 << 5)-1); /* The bit number within the word */`

			`_mali_internal_set_bit( nr, addr );`
			`}`

			`/** @brief Test a bit in a sequence of 32-bit words`
			`* @param nr bit number to test, starting from the (Little-endian) least`
			`* significant bit`
			`* @param addr starting point for counting.`
			`* @return zero if bit was clear, non-zero if set. Do not rely on the return`
			`* value being related to the actual word under test.`
			`*/`
			`MALI_STATIC_INLINE u32 _mali_osk_test_bit( u32 nr, u32 *addr )`
			`{`
			`addr += nr >> 5; /* find the correct word */`
			`nr = nr & ((1 << 5)-1); /* The bit number within the word */`

			`return _mali_internal_test_bit( nr, *addr );`
			`}`

			`/* Return maxbit if not found */`
			`/** @brief Find the first zero bit in a sequence of 32-bit words`
			`* @param addr starting point for search.`
			`* @param maxbit the maximum number of bits to search`
			`* @return the number of the first zero bit found, or maxbit if none were found`
			`* in the specified range.`
			`*/`
			`MALI_STATIC_INLINE u32 _mali_osk_find_first_zero_bit( const u32 *addr, u32 maxbit )`
			`{`
			`u32 total;`

			`for ( total = 0; total < maxbit; total += 32, ++addr )`
			`{`
			`int result;`
			`result = _mali_internal_find_first_zero_bit( *addr );`

			`/* non-negative signifies the bit was found */`
			`if ( result >= 0 )`
			`{`
			`total += (u32)result;`
			`break;`
			`}`
			`}`

			`/* Now check if we reached maxbit or above */`
			`if ( total >= maxbit )`
			`{`
			`total = maxbit;`
			`}`

			`return total; /* either the found bit nr, or maxbit if not found */`
			`}`
			`/** @} / / end group _mali_osk_bitops */`

			`#ifdef __cplusplus`
			`}`
			`#endif`

			`#endif /* __MALI_OSK_BITOPS_H__ */`