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/*
This software is available to you under a choice of one of two
licenses. You may choose to be licensed under the terms of the GNU
General Public License (GPL) Version 2, available at
<http://www.fsf.org/copyleft/gpl.html>, or the OpenIB.org BSD
license, available in the LICENSE.TXT file accompanying this
software. These details are also available at
<http://openib.org/license.html>.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
Copyright (c) 2004 Mellanox Technologies Ltd. All rights reserved.
*/
#ifndef __bit_ops_h__
#define __bit_ops_h__
typedef unsigned long MT_offset_t;
typedef unsigned long MT_size_t;
typedef unsigned char pseudo_bit_t;
struct addr_64_st {
__u32 addr_l;
__u32 addr_h;
};
#define MT_BIT_OFFSET(object_struct,reg_path) \
((MT_offset_t) &( ((struct object_struct *)(0))-> reg_path ))
#define MT_BIT_SIZE(object_struct,reg_path) \
((MT_size_t) sizeof( ((struct object_struct *)(0))-> reg_path ))
#define MT_BIT_OFFSET_SIZE(object_struct,reg_path) \
MT_BIT_OFFSET(object_struct,reg_path),MT_BIT_SIZE(object_struct,reg_path)
#define MT_BYTE_OFFSET(object_struct,reg_path) \
((MT_offset_t) (MT_BIT_OFFSET(object_struct,reg_path)/8))
#define MT_BYTE_SIZE(object_struct,reg_path) \
((MT_size_t) MT_BIT_SIZE(object_struct,reg_path)/8)
#define MT_BYTE_OFFSET_SIZE(object_struct,reg_path) \
MT_BYTE_OFFSET(object_struct,reg_path),MT_BYTE_SIZE(object_struct,reg_path)
#define MT_STRUCT_SIZE(object_struct) (sizeof(struct object_struct) >> 3)
/*****************************************************************************************
* Bit manipulation macros
*****************************************************************************************/
/* MASK generate a bit mask S bits width */
#define MASK32(S) ( ((__u32) ~0L) >> (32-(S)) )
/*
* BITS generate a bit mask with bits O+S..O set (assumes 32 bit integer).
* numbering bits as following: 31........................76543210
*/
#define BITS32(O,S) ( MASK32(S) << (O) )
/*
* MT_EXTRACT32 macro extracts S bits from (__u32)W with offset O
* and shifts them O places to the right (right justifies the field extracted).
*/
#define MT_EXTRACT32(W,O,S) ( ((W)>>(O)) & MASK32(S) )
/*
* MT_INSERT32 macro inserts S bits with offset O from field F into word W (__u32)
*/
#define MT_INSERT32(W,F,O,S) ((W)= ( ( (W) & (~BITS32(O,S)) ) | (((F) & MASK32(S))<<(O)) ))
/*
* MT_EXTRACT_ARRAY32 macro is similar to EXTRACT but works on an array of (__u32),
* thus offset may be larger than 32 (but not size).
*/
#define MT_EXTRACT_ARRAY32(A,O,S) MT_EXTRACT32(((__u32*)A)[O >> 5],(O & MASK32(5)),S)
/*
* MT_EXTRACT_ARRAY32_BE macro is similar to EXTRACT but works on an array of (__u32),
* thus offset may be larger than 32 (but not size).
*
* (added by mcb30)
*/
#define MT_EXTRACT_ARRAY32_BE(A,O,S) MT_EXTRACT32(be32_to_cpu(((__u32*)A)[O >> 5]),(O & MASK32(5)),S)
/*
* MT_INSERT_ARRAY32 macro is similar to INSERT but works on an array of (__u32),
* thus offset may be larger than 32 (but not size).
*/
#define MT_INSERT_ARRAY32(A,F,O,S) MT_INSERT32(((__u32*)A)[O >> 5],F,(O & MASK32(5)),S)
#define INS_FLD(src, a, st, fld) MT_INSERT_ARRAY32(a, src, MT_BIT_OFFSET(st, fld), MT_BIT_SIZE(st, fld))
#define EX_FLD(a, st, fld) MT_EXTRACT_ARRAY32(a, MT_BIT_OFFSET(st, fld), MT_BIT_SIZE(st, fld))
#define EX_FLD_BE(a, st, fld) MT_EXTRACT_ARRAY32_BE(a, MT_BIT_OFFSET(st, fld), MT_BIT_SIZE(st, fld))
/* return the address of the dword holding the field
buf = pointer to buffer where to place the value
st = struct describing the buffer
fld = field in the struct where to insert the value */
#define FLD_DW_ADDR(buf, st, fld) ((__u32 *)((__u32 *)(buf)+(((__u32)(&(((struct st *)(0))->fld))) >> 5)))
/*
val = value to insert
buf = pointer to buffer where to place the value
st = struct describing the buffer
fld = field in the struct where to insert the value */
#define INS_FLD_TO_BE(val, buf, st, fld) \
do { \
*FLD_DW_ADDR(buf, st, fld) = be32_to_cpu(*FLD_DW_ADDR(buf, st, fld)); \
INS_FLD(val, buf, st, fld); \
*FLD_DW_ADDR(buf, st, fld) = cpu_to_be32(*FLD_DW_ADDR(buf, st, fld)); \
} \
while(0)
#define EX_FLD_FROM_BE(buf, st, fld, type) \
({ \
type field; \
\
*FLD_DW_ADDR(buf, st, fld) = be32_to_cpu(*FLD_DW_ADDR(buf, st, fld)); \
field= EX_FLD(buf, st, fld); \
*FLD_DW_ADDR(buf, st, fld) = cpu_to_be32(*FLD_DW_ADDR(buf, st, fld)); \
\
field; \
})
/* Remaining code Copyright Fen Systems Ltd. 2007 */
/** Bit offset of a field within a pseudo_bit_t structure */
#define MLX_BIT_OFFSET( _structure, _field ) \
offsetof ( struct _structure, _field )
/** Bit width of a field within a pseudo_bit_t structure */
#define MLX_BIT_WIDTH( _structure, _field ) \
sizeof ( ( ( struct _structure * ) NULL )->_field )
/*
* Assemble native-endian dword from named fields and values
*
*/
#define MLX_ASSEMBLE_1( _structure, _index, _field, _value ) \
( (_value) << \
( MLX_BIT_OFFSET ( _structure, _field ) - ( 32 * (_index) ) ) )
#define MLX_ASSEMBLE_2( _structure, _index, _field, _value, ... ) \
( MLX_ASSEMBLE_1 ( _structure, _index, _field, _value ) | \
MLX_ASSEMBLE_1 ( _structure, _index, __VA_ARGS__ ) )
#define MLX_ASSEMBLE_3( _structure, _index, _field, _value, ... ) \
( MLX_ASSEMBLE_1 ( _structure, _index, _field, _value ) | \
MLX_ASSEMBLE_2 ( _structure, _index, __VA_ARGS__ ) )
#define MLX_ASSEMBLE_4( _structure, _index, _field, _value, ... ) \
( MLX_ASSEMBLE_1 ( _structure, _index, _field, _value ) | \
MLX_ASSEMBLE_3 ( _structure, _index, __VA_ARGS__ ) )
/*
* Build native-endian (positive) dword bitmasks from named fields
*
*/
#define MLX_MASK_1( _structure, _index, _field ) \
MLX_ASSEMBLE_1 ( _structure, _index, _field, \
( ( 1 << MLX_BIT_WIDTH ( _structure, \
_field ) ) - 1 ) )
#define MLX_MASK_2( _structure, _index, _field, ... ) \
( MLX_MASK_1 ( _structure, _index, _field ) | \
MLX_MASK_1 ( _structure, _index, __VA_ARGS__ ) )
#define MLX_MASK_3( _structure, _index, _field, ... ) \
( MLX_MASK_1 ( _structure, _index, _field ) | \
MLX_MASK_2 ( _structure, _index, __VA_ARGS__ ) )
#define MLX_MASK_4( _structure, _index, _field, ... ) \
( MLX_MASK_1 ( _structure, _index, _field ) | \
MLX_MASK_3 ( _structure, _index, __VA_ARGS__ ) )
/*
* Populate big-endian dwords from named fields and values
*
*/
#define MLX_POPULATE( _base, _index, _assembled ) \
do { \
uint32_t *__ptr = ( ( (uint32_t *) (_base) ) + (_index) ); \
uint32_t __assembled = (_assembled); \
*__ptr = cpu_to_be32 ( __assembled ); \
} while ( 0 )
#define MLX_POPULATE_1( _base, _structure, _index, ... ) \
MLX_POPULATE ( _base, _index, \
MLX_ASSEMBLE_1 ( _structure, _index, __VA_ARGS__ ) )
#define MLX_POPULATE_2( _base, _structure, _index, ... ) \
MLX_POPULATE ( _base, _index, \
MLX_ASSEMBLE_2 ( _structure, _index, __VA_ARGS__ ) )
#define MLX_POPULATE_3( _base, _structure, _index, ... ) \
MLX_POPULATE ( _base, _index, \
MLX_ASSEMBLE_3 ( _structure, _index, __VA_ARGS__ ) )
#define MLX_POPULATE_4( _base, _structure, _index, ... ) \
MLX_POPULATE ( _base, _index, \
MLX_ASSEMBLE_4 ( _structure, _index, __VA_ARGS__ ) )
/*
* Modify big-endian dword using named field and value
*
*/
#define MLX_MODIFY( _base, _structure, _index, _field, _value ) \
do { \
uint32_t *__ptr = ( ( (uint32_t *) (_base) ) + (_index) ); \
uint32_t __value = be32_to_cpu ( *__ptr ); \
__value &= ~( MLX_MASK_1 ( _structure, _index, _field ) ); \
__value |= MLX_ASSEMBLE_1 ( _structure, _index, \
_field, _value ); \
*__ptr = cpu_to_be32 ( __value ); \
} while ( 0 )
#endif /* __bit_ops_h__ */
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