gpxe/src/drivers/infiniband/mlx_bitops.h - platform/external/syslinux - Git at Google

 #ifndef _MLX_BITOPS_H
 #define _MLX_BITOPS_H

 /*
  * Copyright (C) 2007 Michael Brown <mbrown@fensystems.co.uk>.
  *
  * This program is free software; you can redistribute it and/or
  * modify it under the terms of the GNU General Public License as
  * published by the Free Software Foundation; either version 2 of the
  * License, or any later version.
  *
  * This program is distributed in the hope that it will be useful, but
  * WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
  */

 FILE_LICENCE ( GPL2_OR_LATER );

 /**
  * @file
  *
  * Mellanox bit operations
  *
  */

 /* Datatype used to represent a bit in the Mellanox autogenerated headers */
 typedef unsigned char pseudo_bit_t;

 /**
  * Wrapper structure for pseudo_bit_t structures
  *
  * This structure provides a wrapper around the autogenerated
  * pseudo_bit_t structures.  It has the correct size, and also
  * encapsulates type information about the underlying pseudo_bit_t
  * structure, which allows the MLX_FILL etc. macros to work without
  * requiring explicit type information.
  */
 #define MLX_DECLARE_STRUCT( _structure )				     \
 	_structure {							     \
 	    union {							     \
 		uint8_t bytes[ sizeof ( struct _structure ## _st ) / 8 ];    \
 		uint32_t dwords[ sizeof ( struct _structure ## _st ) / 32 ]; \
 		struct _structure ## _st *dummy[0];			     \
 	    } u;							     \
 	}

 /** Get pseudo_bit_t structure type from wrapper structure pointer */
 #define MLX_PSEUDO_STRUCT( _ptr )					     \
 	typeof ( *((_ptr)->u.dummy[0]) )

 /** Bit offset of a field within a pseudo_bit_t structure */
 #define MLX_BIT_OFFSET( _structure_st, _field )				     \
 	offsetof ( _structure_st, _field )

 /** Dword offset of a field within a pseudo_bit_t structure */
 #define MLX_DWORD_OFFSET( _structure_st, _field )			     \
 	( MLX_BIT_OFFSET ( _structure_st, _field ) / 32 )

 /** Dword bit offset of a field within a pseudo_bit_t structure
  *
  * Yes, using mod-32 would work, but would lose the check for the
  * error of specifying a mismatched field name and dword index.
  */
 #define MLX_DWORD_BIT_OFFSET( _structure_st, _index, _field )		     \
 	( MLX_BIT_OFFSET ( _structure_st, _field ) - ( 32 * (_index) ) )

 /** Bit width of a field within a pseudo_bit_t structure */
 #define MLX_BIT_WIDTH( _structure_st, _field )				     \
 	sizeof ( ( ( _structure_st * ) NULL )->_field )

 /** Bit mask for a field within a pseudo_bit_t structure */
 #define MLX_BIT_MASK( _structure_st, _field )				     \
 	( ( ~( ( uint32_t ) 0 ) ) >>					     \
 	  ( 32 - MLX_BIT_WIDTH ( _structure_st, _field ) ) )

 /*
  * Assemble native-endian dword from named fields and values
  *
  */

 #define MLX_ASSEMBLE_1( _structure_st, _index, _field, _value )		     \
 	( (_value) << MLX_DWORD_BIT_OFFSET ( _structure_st, _index, _field ) )

 #define MLX_ASSEMBLE_2( _structure_st, _index, _field, _value, ... )	     \
 	( MLX_ASSEMBLE_1 ( _structure_st, _index, _field, _value ) |	     \
 	  MLX_ASSEMBLE_1 ( _structure_st, _index, __VA_ARGS__ ) )

 #define MLX_ASSEMBLE_3( _structure_st, _index, _field, _value, ... )	     \
 	( MLX_ASSEMBLE_1 ( _structure_st, _index, _field, _value ) |	     \
 	  MLX_ASSEMBLE_2 ( _structure_st, _index, __VA_ARGS__ ) )

 #define MLX_ASSEMBLE_4( _structure_st, _index, _field, _value, ... )	     \
 	( MLX_ASSEMBLE_1 ( _structure_st, _index, _field, _value ) |	     \
 	  MLX_ASSEMBLE_3 ( _structure_st, _index, __VA_ARGS__ ) )

 #define MLX_ASSEMBLE_5( _structure_st, _index, _field, _value, ... )	     \
 	( MLX_ASSEMBLE_1 ( _structure_st, _index, _field, _value ) |	     \
 	  MLX_ASSEMBLE_4 ( _structure_st, _index, __VA_ARGS__ ) )

 #define MLX_ASSEMBLE_6( _structure_st, _index, _field, _value, ... )	     \
 	( MLX_ASSEMBLE_1 ( _structure_st, _index, _field, _value ) |	     \
 	  MLX_ASSEMBLE_5 ( _structure_st, _index, __VA_ARGS__ ) )

 #define MLX_ASSEMBLE_7( _structure_st, _index, _field, _value, ... )	     \
 	( MLX_ASSEMBLE_1 ( _structure_st, _index, _field, _value ) |	     \
 	  MLX_ASSEMBLE_6 ( _structure_st, _index, __VA_ARGS__ ) )

 /*
  * Build native-endian (positive) dword bitmasks from named fields
  *
  */

 #define MLX_MASK_1( _structure_st, _index, _field )			     \
 	( MLX_BIT_MASK ( _structure_st, _field ) <<			     \
 	  MLX_DWORD_BIT_OFFSET ( _structure_st, _index, _field ) )

 #define MLX_MASK_2( _structure_st, _index, _field, ... )		     \
 	( MLX_MASK_1 ( _structure_st, _index, _field ) |		     \
 	  MLX_MASK_1 ( _structure_st, _index, __VA_ARGS__ ) )

 #define MLX_MASK_3( _structure_st, _index, _field, ... )		     \
 	( MLX_MASK_1 ( _structure_st, _index, _field ) |		     \
 	  MLX_MASK_2 ( _structure_st, _index, __VA_ARGS__ ) )

 #define MLX_MASK_4( _structure_st, _index, _field, ... )		     \
 	( MLX_MASK_1 ( _structure_st, _index, _field ) |		     \
 	  MLX_MASK_3 ( _structure_st, _index, __VA_ARGS__ ) )

 #define MLX_MASK_5( _structure_st, _index, _field, ... )		     \
 	( MLX_MASK_1 ( _structure_st, _index, _field ) |		     \
 	  MLX_MASK_4 ( _structure_st, _index, __VA_ARGS__ ) )

 #define MLX_MASK_6( _structure_st, _index, _field, ... )		     \
 	( MLX_MASK_1 ( _structure_st, _index, _field ) |		     \
 	  MLX_MASK_5 ( _structure_st, _index, __VA_ARGS__ ) )

 #define MLX_MASK_7( _structure_st, _index, _field, ... )		     \
 	( MLX_MASK_1 ( _structure_st, _index, _field ) |		     \
 	  MLX_MASK_6 ( _structure_st, _index, __VA_ARGS__ ) )

 /*
  * Populate big-endian dwords from named fields and values
  *
  */

 #define MLX_FILL( _ptr, _index, _assembled )				     \
 	do {								     \
 		uint32_t *__ptr = &(_ptr)->u.dwords[(_index)];		     \
 		uint32_t __assembled = (_assembled);			     \
 		*__ptr = cpu_to_be32 ( __assembled );			     \
 	} while ( 0 )

 #define MLX_FILL_1( _ptr, _index, ... )					     \
 	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_1 ( MLX_PSEUDO_STRUCT ( _ptr ),\
 						  _index, __VA_ARGS__ ) )

 #define MLX_FILL_2( _ptr, _index, ... )					     \
 	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_2 ( MLX_PSEUDO_STRUCT ( _ptr ),\
 						  _index, __VA_ARGS__ ) )

 #define MLX_FILL_3( _ptr, _index, ... )					     \
 	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_3 ( MLX_PSEUDO_STRUCT ( _ptr ),\
 						  _index, __VA_ARGS__ ) )

 #define MLX_FILL_4( _ptr, _index, ... )					     \
 	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_4 ( MLX_PSEUDO_STRUCT ( _ptr ),\
 						  _index, __VA_ARGS__ ) )

 #define MLX_FILL_5( _ptr, _index, ... )					     \
 	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_5 ( MLX_PSEUDO_STRUCT ( _ptr ),\
 						  _index, __VA_ARGS__ ) )

 #define MLX_FILL_6( _ptr, _index, ... )					     \
 	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_6 ( MLX_PSEUDO_STRUCT ( _ptr ),\
 						  _index, __VA_ARGS__ ) )

 #define MLX_FILL_7( _ptr, _index, ... )					     \
 	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_7 ( MLX_PSEUDO_STRUCT ( _ptr ),\
 						  _index, __VA_ARGS__ ) )

 /*
  * Modify big-endian dword using named field and value
  *
  */

 #define MLX_SET( _ptr, _field, _value )					     \
 	do {								     \
 		unsigned int __index = 					     \
 		    MLX_DWORD_OFFSET ( MLX_PSEUDO_STRUCT ( _ptr ), _field ); \
 		uint32_t *__ptr = &(_ptr)->u.dwords[__index];		     \
 		uint32_t __value = be32_to_cpu ( *__ptr );		     \
 		__value &= ~( MLX_MASK_1 ( MLX_PSEUDO_STRUCT ( _ptr ),	     \
 					   __index, _field ) );		     \
 		__value |= MLX_ASSEMBLE_1 ( MLX_PSEUDO_STRUCT ( _ptr ),	     \
 					    __index, _field, _value );	     \
 		*__ptr = cpu_to_be32 ( __value );			     \
 	} while ( 0 )

 /*
  * Extract value of named field
  *
  */

 #define MLX_GET( _ptr, _field )						     \
 	( {								     \
 		unsigned int __index = 					     \
 		    MLX_DWORD_OFFSET ( MLX_PSEUDO_STRUCT ( _ptr ), _field ); \
 		uint32_t *__ptr = &(_ptr)->u.dwords[__index];		     \
 		uint32_t __value = be32_to_cpu ( *__ptr );		     \
 		__value >>=						     \
 		    MLX_DWORD_BIT_OFFSET ( MLX_PSEUDO_STRUCT ( _ptr ),	     \
 					    __index, _field );		     \
 		__value &=						     \
 		    MLX_BIT_MASK ( MLX_PSEUDO_STRUCT ( _ptr ), _field );     \
 		__value;						     \
 	} )

 #endif /* _MLX_BITOPS_H */
	#ifndef _MLX_BITOPS_H
	#define _MLX_BITOPS_H

	/*
	* Copyright (C) 2007 Michael Brown <mbrown@fensystems.co.uk>.
	*
	* This program is free software; you can redistribute it and/or
	* modify it under the terms of the GNU General Public License as
	* published by the Free Software Foundation; either version 2 of the
	* License, or any later version.
	*
	* This program is distributed in the hope that it will be useful, but
	* WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, write to the Free Software
	* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
	*/

	FILE_LICENCE ( GPL2_OR_LATER );

	/**
	* @file
	*
	* Mellanox bit operations
	*
	*/

	/* Datatype used to represent a bit in the Mellanox autogenerated headers */
	typedef unsigned char pseudo_bit_t;

	/**
	* Wrapper structure for pseudo_bit_t structures
	*
	* This structure provides a wrapper around the autogenerated
	* pseudo_bit_t structures. It has the correct size, and also
	* encapsulates type information about the underlying pseudo_bit_t
	* structure, which allows the MLX_FILL etc. macros to work without
	* requiring explicit type information.
	*/
	#define MLX_DECLARE_STRUCT( _structure ) \
	_structure { \
	union { \
	uint8_t bytes[ sizeof ( struct _structure ## _st ) / 8 ]; \
	uint32_t dwords[ sizeof ( struct _structure ## _st ) / 32 ]; \
	struct _structure ## _st *dummy[0]; \
	} u; \
	}

	/** Get pseudo_bit_t structure type from wrapper structure pointer */
	#define MLX_PSEUDO_STRUCT( _ptr ) \
	typeof ( *((_ptr)->u.dummy[0]) )

	/** Bit offset of a field within a pseudo_bit_t structure */
	#define MLX_BIT_OFFSET( _structure_st, _field ) \
	offsetof ( _structure_st, _field )

	/** Dword offset of a field within a pseudo_bit_t structure */
	#define MLX_DWORD_OFFSET( _structure_st, _field ) \
	( MLX_BIT_OFFSET ( _structure_st, _field ) / 32 )

	/** Dword bit offset of a field within a pseudo_bit_t structure
	*
	* Yes, using mod-32 would work, but would lose the check for the
	* error of specifying a mismatched field name and dword index.
	*/
	#define MLX_DWORD_BIT_OFFSET( _structure_st, _index, _field ) \
	( MLX_BIT_OFFSET ( _structure_st, _field ) - ( 32 * (_index) ) )

	/** Bit width of a field within a pseudo_bit_t structure */
	#define MLX_BIT_WIDTH( _structure_st, _field ) \
	sizeof ( ( ( _structure_st * ) NULL )->_field )

	/** Bit mask for a field within a pseudo_bit_t structure */
	#define MLX_BIT_MASK( _structure_st, _field ) \
	( ( ~( ( uint32_t ) 0 ) ) >> \
	( 32 - MLX_BIT_WIDTH ( _structure_st, _field ) ) )

	/*
	* Assemble native-endian dword from named fields and values
	*
	*/

	#define MLX_ASSEMBLE_1( _structure_st, _index, _field, _value ) \
	( (_value) << MLX_DWORD_BIT_OFFSET ( _structure_st, _index, _field ) )

	#define MLX_ASSEMBLE_2( _structure_st, _index, _field, _value, ... ) \
	( MLX_ASSEMBLE_1 ( _structure_st, _index, _field, _value ) \| \
	MLX_ASSEMBLE_1 ( _structure_st, _index, __VA_ARGS__ ) )

	#define MLX_ASSEMBLE_3( _structure_st, _index, _field, _value, ... ) \
	( MLX_ASSEMBLE_1 ( _structure_st, _index, _field, _value ) \| \
	MLX_ASSEMBLE_2 ( _structure_st, _index, __VA_ARGS__ ) )

	#define MLX_ASSEMBLE_4( _structure_st, _index, _field, _value, ... ) \
	( MLX_ASSEMBLE_1 ( _structure_st, _index, _field, _value ) \| \
	MLX_ASSEMBLE_3 ( _structure_st, _index, __VA_ARGS__ ) )

	#define MLX_ASSEMBLE_5( _structure_st, _index, _field, _value, ... ) \
	( MLX_ASSEMBLE_1 ( _structure_st, _index, _field, _value ) \| \
	MLX_ASSEMBLE_4 ( _structure_st, _index, __VA_ARGS__ ) )

	#define MLX_ASSEMBLE_6( _structure_st, _index, _field, _value, ... ) \
	( MLX_ASSEMBLE_1 ( _structure_st, _index, _field, _value ) \| \
	MLX_ASSEMBLE_5 ( _structure_st, _index, __VA_ARGS__ ) )

	#define MLX_ASSEMBLE_7( _structure_st, _index, _field, _value, ... ) \
	( MLX_ASSEMBLE_1 ( _structure_st, _index, _field, _value ) \| \
	MLX_ASSEMBLE_6 ( _structure_st, _index, __VA_ARGS__ ) )

	/*
	* Build native-endian (positive) dword bitmasks from named fields
	*
	*/

	#define MLX_MASK_1( _structure_st, _index, _field ) \
	( MLX_BIT_MASK ( _structure_st, _field ) << \
	MLX_DWORD_BIT_OFFSET ( _structure_st, _index, _field ) )

	#define MLX_MASK_2( _structure_st, _index, _field, ... ) \
	( MLX_MASK_1 ( _structure_st, _index, _field ) \| \
	MLX_MASK_1 ( _structure_st, _index, __VA_ARGS__ ) )

	#define MLX_MASK_3( _structure_st, _index, _field, ... ) \
	( MLX_MASK_1 ( _structure_st, _index, _field ) \| \
	MLX_MASK_2 ( _structure_st, _index, __VA_ARGS__ ) )

	#define MLX_MASK_4( _structure_st, _index, _field, ... ) \
	( MLX_MASK_1 ( _structure_st, _index, _field ) \| \
	MLX_MASK_3 ( _structure_st, _index, __VA_ARGS__ ) )

	#define MLX_MASK_5( _structure_st, _index, _field, ... ) \
	( MLX_MASK_1 ( _structure_st, _index, _field ) \| \
	MLX_MASK_4 ( _structure_st, _index, __VA_ARGS__ ) )

	#define MLX_MASK_6( _structure_st, _index, _field, ... ) \
	( MLX_MASK_1 ( _structure_st, _index, _field ) \| \
	MLX_MASK_5 ( _structure_st, _index, __VA_ARGS__ ) )

	#define MLX_MASK_7( _structure_st, _index, _field, ... ) \
	( MLX_MASK_1 ( _structure_st, _index, _field ) \| \
	MLX_MASK_6 ( _structure_st, _index, __VA_ARGS__ ) )

	/*
	* Populate big-endian dwords from named fields and values
	*
	*/

	#define MLX_FILL( _ptr, _index, _assembled ) \
	do { \
	uint32_t *__ptr = &(_ptr)->u.dwords[(_index)]; \
	uint32_t __assembled = (_assembled); \
	*__ptr = cpu_to_be32 ( __assembled ); \
	} while ( 0 )

	#define MLX_FILL_1( _ptr, _index, ... ) \
	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_1 ( MLX_PSEUDO_STRUCT ( _ptr ),\
	_index, __VA_ARGS__ ) )

	#define MLX_FILL_2( _ptr, _index, ... ) \
	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_2 ( MLX_PSEUDO_STRUCT ( _ptr ),\
	_index, __VA_ARGS__ ) )

	#define MLX_FILL_3( _ptr, _index, ... ) \
	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_3 ( MLX_PSEUDO_STRUCT ( _ptr ),\
	_index, __VA_ARGS__ ) )

	#define MLX_FILL_4( _ptr, _index, ... ) \
	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_4 ( MLX_PSEUDO_STRUCT ( _ptr ),\
	_index, __VA_ARGS__ ) )

	#define MLX_FILL_5( _ptr, _index, ... ) \
	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_5 ( MLX_PSEUDO_STRUCT ( _ptr ),\
	_index, __VA_ARGS__ ) )

	#define MLX_FILL_6( _ptr, _index, ... ) \
	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_6 ( MLX_PSEUDO_STRUCT ( _ptr ),\
	_index, __VA_ARGS__ ) )

	#define MLX_FILL_7( _ptr, _index, ... ) \
	MLX_FILL ( _ptr, _index, MLX_ASSEMBLE_7 ( MLX_PSEUDO_STRUCT ( _ptr ),\
	_index, __VA_ARGS__ ) )

	/*
	* Modify big-endian dword using named field and value
	*
	*/

	#define MLX_SET( _ptr, _field, _value ) \
	do { \
	unsigned int __index = \
	MLX_DWORD_OFFSET ( MLX_PSEUDO_STRUCT ( _ptr ), _field ); \
	uint32_t *__ptr = &(_ptr)->u.dwords[__index]; \
	uint32_t __value = be32_to_cpu ( *__ptr ); \
	__value &= ~( MLX_MASK_1 ( MLX_PSEUDO_STRUCT ( _ptr ), \
	__index, _field ) ); \
	__value \|= MLX_ASSEMBLE_1 ( MLX_PSEUDO_STRUCT ( _ptr ), \
	__index, _field, _value ); \
	*__ptr = cpu_to_be32 ( __value ); \
	} while ( 0 )

	/*
	* Extract value of named field
	*
	*/

	#define MLX_GET( _ptr, _field ) \
	( { \
	unsigned int __index = \
	MLX_DWORD_OFFSET ( MLX_PSEUDO_STRUCT ( _ptr ), _field ); \
	uint32_t *__ptr = &(_ptr)->u.dwords[__index]; \
	uint32_t __value = be32_to_cpu ( *__ptr ); \
	__value >>= \
	MLX_DWORD_BIT_OFFSET ( MLX_PSEUDO_STRUCT ( _ptr ), \
	__index, _field ); \
	__value &= \
	MLX_BIT_MASK ( MLX_PSEUDO_STRUCT ( _ptr ), _field ); \
	__value; \
	} )

	#endif /* _MLX_BITOPS_H */