gpxe/src/include/compiler.h - platform/external/syslinux - Git at Google

 #ifndef COMPILER_H
 #define COMPILER_H

 /*
  * Doxygen can't cope with some of the more esoteric areas of C, so we
  * make its life simpler.
  *
  */
 #ifdef DOXYGEN
 #define __attribute__(x)
 #endif

 /** @file
  *
  * Global compiler definitions.
  *
  * This file is implicitly included by every @c .c file in Etherboot.
  * It defines global macros such as DBG().
  *
  * We arrange for each object to export the symbol @c obj_OBJECT
  * (where @c OBJECT is the object name, e.g. @c rtl8139) as a global
  * symbol, so that the linker can drag in selected object files from
  * the library using <tt> -u obj_OBJECT </tt>.
  *
  */

 /* Force visibility of all symbols to "hidden", i.e. inform gcc that
  * all symbol references resolve strictly within our final binary.
  * This avoids unnecessary PLT/GOT entries on x86_64.
  *
  * This is a stronger claim than specifying "-fvisibility=hidden",
  * since it also affects symbols marked with "extern".
  */
 #ifndef ASSEMBLY
 #if __GNUC__ >= 4
 #pragma GCC visibility push(hidden)
 #endif
 #endif /* ASSEMBLY */

 #undef _S1
 #undef _S2
 #undef _C1
 #undef _C2

 /** Concatenate non-expanded arguments */
 #define _C1( x, y ) x ## y
 /** Concatenate expanded arguments */
 #define _C2( x, y ) _C1 ( x, y )

 /** Stringify non-expanded argument */
 #define _S1( x ) #x
 /** Stringify expanded argument */
 #define _S2( x ) _S1 ( x )

 /**
  * @defgroup symmacros Macros to provide or require explicit symbols
  * @{
  */

 /** Provide a symbol within this object file */
 #ifdef ASSEMBLY
 #define PROVIDE_SYMBOL( _sym )				\
 	.globl	_sym ;					\
 	.comm	_sym, 0
 #else /* ASSEMBLY */
 #define PROVIDE_SYMBOL( _sym )				\
 	char _sym[0]
 #endif /* ASSEMBLY */

 /** Require a symbol within this object file
  *
  * The symbol is referenced by a relocation in a discarded section, so
  * if it is not available at link time the link will fail.
  */
 #ifdef ASSEMBLY
 #define REQUIRE_SYMBOL( _sym )				\
 	.section ".discard", "a", @progbits ;		\
 	.extern	_sym ;					\
 	.long	_sym ;					\
 	.previous
 #else /* ASSEMBLY */
 #define REQUIRE_SYMBOL( _sym )				\
 	extern char _sym;				\
 	static char * _C2 ( _C2 ( __require_, _sym ), _C2 ( _, __LINE__ ) ) \
 		__attribute__ (( section ( ".discard" ), used )) \
 		= &_sym
 #endif

 /** Request that a symbol be available at runtime
  *
  * The requested symbol is entered as undefined into the symbol table
  * for this object, so the linker will pull in other object files as
  * necessary to satisfy the reference. However, the undefined symbol
  * is not referenced in any relocations, so the link can still succeed
  * if no file contains it.
  *
  * A symbol passed to this macro may not be referenced anywhere
  * else in the file. If you want to do that, see IMPORT_SYMBOL().
  */
 #ifdef ASSEMBLY
 #define REQUEST_SYMBOL( _sym )				\
 	.equ	__need_ ## _sym, _sym
 #else /* ASSEMBLY */
 #define REQUEST_SYMBOL( _sym )				\
 	__asm__ ( ".equ\t__need_" #_sym ", " #_sym )
 #endif /* ASSEMBLY */

 /** Set up a symbol to be usable in another file by IMPORT_SYMBOL()
  *
  * The symbol must already be marked as global.
  */
 #define EXPORT_SYMBOL( _sym )	PROVIDE_SYMBOL ( __export_ ## _sym )

 /** Make a symbol usable to this file if available at link time
  *
  * If no file passed to the linker contains the symbol, it will have
  * @c NULL value to future uses. Keep in mind that the symbol value is
  * really the @e address of a variable or function; see the code
  * snippet below.
  *
  * In C using IMPORT_SYMBOL, you must specify the declaration as the
  * second argument, for instance
  *
  * @code
  *   IMPORT_SYMBOL ( my_func, int my_func ( int arg ) );
  *   IMPORT_SYMBOL ( my_var, int my_var );
  *
  *   void use_imports ( void ) {
  * 	if ( my_func && &my_var )
  * 	   my_var = my_func ( my_var );
  *   }
  * @endcode
  *
  * GCC considers a weak declaration to override a strong one no matter
  * which comes first, so it is safe to include a header file declaring
  * the imported symbol normally, but providing the declaration to
  * IMPORT_SYMBOL is still required.
  *
  * If no EXPORT_SYMBOL declaration exists for the imported symbol in
  * another file, the behavior will be most likely be identical to that
  * for an unavailable symbol.
  */
 #ifdef ASSEMBLY
 #define IMPORT_SYMBOL( _sym )				\
 	REQUEST_SYMBOL ( __export_ ## _sym ) ;		\
 	.weak	_sym
 #else /* ASSEMBLY */
 #define IMPORT_SYMBOL( _sym, _decl )			\
 	REQUEST_SYMBOL ( __export_ ## _sym ) ;		\
 	extern _decl __attribute__ (( weak ))
 #endif

 /** @} */

 /**
  * @defgroup objmacros Macros to provide or require explicit objects
  * @{
  */

 #define PREFIX_OBJECT( _prefix ) _C2 ( _prefix, OBJECT )
 #define OBJECT_SYMBOL PREFIX_OBJECT ( obj_ )
 #define REQUEST_EXPANDED( _sym ) REQUEST_SYMBOL ( _sym )
 #define CONFIG_SYMBOL PREFIX_OBJECT ( obj_config_ )

 /** Always provide the symbol for the current object (defined by -DOBJECT) */
 PROVIDE_SYMBOL ( OBJECT_SYMBOL );

 /** Pull in an object-specific configuration file if available */
 REQUEST_EXPANDED ( CONFIG_SYMBOL );

 /** Explicitly require another object */
 #define REQUIRE_OBJECT( _obj ) REQUIRE_SYMBOL ( obj_ ## _obj )

 /** Pull in another object if it exists */
 #define REQUEST_OBJECT( _obj ) REQUEST_SYMBOL ( obj_ ## _obj )

 /** @} */

 /** Select file identifier for errno.h (if used) */
 #define ERRFILE PREFIX_OBJECT ( ERRFILE_ )

 /**
  * @defgroup weakmacros Macros to manage weak symbol definitions
  *
  * Weak symbols allow one to reference a function in another file
  * without necessarily requiring that file to be linked in. In their
  * native form, the function will be @c NULL if its file is not linked
  * in; these macros provide an inline wrapper that returns an
  * appropriate error indication or default value.
  *
  * @{
  */
 #ifndef ASSEMBLY

 /** Mangle @a name into its weakly-referenced implementation */
 #define __weak_impl( name )   _w_ ## name

 /**
  * Declare a weak function with inline safety wrapper
  *
  * @v ret	Return type of weak function
  * @v name	Name of function to expose
  * @v proto	Parenthesized list of arguments with types
  * @v args	Parenthesized list of argument names
  * @v dfl	Value to return if weak function is not available
  */
 #define __weak_decl( ret, name, proto, args, dfl )		\
         ret __weak_impl( name ) proto __attribute__ (( weak ));	\
         static inline ret name proto {				\
                 if ( __weak_impl( name ) )			\
                         return __weak_impl( name ) args;	\
                 return dfl;					\
         }

 #endif
 /** @} */

 /** @defgroup dbg Debugging infrastructure
  * @{
  */
 #ifndef ASSEMBLY

 /** @def DBG
  *
  * Print a debugging message.
  *
  * The debug level is set at build time by specifying the @c DEBUG=
  * parameter on the @c make command line.  For example, to enable
  * debugging for the PCI bus functions (in pci.c) in a @c .dsk image
  * for the @c rtl8139 card, you could use the command line
  *
  * @code
  *
  *   make bin/rtl8139.dsk DEBUG=pci
  *
  * @endcode
  *
  * This will enable the debugging statements (DBG()) in pci.c.  If
  * debugging is not enabled, DBG() statements will be ignored.
  *
  * You can enable debugging in several objects simultaneously by
  * separating them with commas, as in
  *
  * @code
  *
  *   make bin/rtl8139.dsk DEBUG=pci,buffer,heap
  *
  * @endcode
  *
  * You can increase the debugging level for an object by specifying it
  * with @c :N, where @c N is the level, as in
  *
  * @code
  *
  *   make bin/rtl8139.dsk DEBUG=pci,buffer:2,heap
  *
  * @endcode
  *
  * which would enable debugging for the PCI, buffer-handling and
  * heap-allocation code, with the buffer-handling code at level 2.
  *
  */

 /*
  * If debug_OBJECT is set to a true value, the macro DBG(...) will
  * expand to printf(...) when compiling OBJECT, and the symbol
  * DEBUG_LEVEL will be inserted into the object file.
  *
  */
 #define DEBUG_SYMBOL PREFIX_OBJECT ( debug_ )

 /** printf() for debugging
  *
  * This function exists so that the DBG() macros can expand to
  * printf() calls without dragging the printf() prototype into scope.
  *
  * As far as the compiler is concerned, dbg_printf() and printf() are
  * completely unrelated calls; it's only at the assembly stage that
  * references to the dbg_printf symbol are collapsed into references
  * to the printf symbol.
  */
 extern int __attribute__ (( format ( printf, 1, 2 ) ))
 dbg_printf ( const char *fmt, ... ) asm ( "printf" );

 extern void dbg_autocolourise ( unsigned long id );
 extern void dbg_decolourise ( void );
 extern void dbg_hex_dump_da ( unsigned long dispaddr,
 			      const void *data, unsigned long len );

 #if DEBUG_SYMBOL
 #define DBGLVL_MAX DEBUG_SYMBOL
 #else
 #define DBGLVL_MAX 0
 #endif

 /* Allow for selective disabling of enabled debug levels */
 #if DBGLVL_MAX
 int __debug_disable;
 #define DBGLVL ( DBGLVL_MAX & ~__debug_disable )
 #define DBG_DISABLE( level ) do {				\
 	__debug_disable |= ( (level) & DBGLVL_MAX );		\
 	} while ( 0 )
 #define DBG_ENABLE( level ) do {				\
 	__debug_disable &= ~( (level) & DBGLVL_MAX );		\
 	} while ( 0 )
 #else
 #define DBGLVL 0
 #define DBG_DISABLE( level ) do { } while ( 0 )
 #define DBG_ENABLE( level ) do { } while ( 0 )
 #endif

 #define DBGLVL_LOG	1
 #define DBG_LOG		( DBGLVL & DBGLVL_LOG )
 #define DBGLVL_EXTRA	2
 #define DBG_EXTRA	( DBGLVL & DBGLVL_EXTRA )
 #define DBGLVL_PROFILE	4
 #define DBG_PROFILE	( DBGLVL & DBGLVL_PROFILE )
 #define DBGLVL_IO	8
 #define DBG_IO		( DBGLVL & DBGLVL_IO )

 /**
  * Print debugging message if we are at a certain debug level
  *
  * @v level		Debug level
  * @v ...		printf() argument list
  */
 #define DBG_IF( level, ... ) do {				\
 		if ( DBG_ ## level ) {				\
 			dbg_printf ( __VA_ARGS__ );		\
 		}						\
 	} while ( 0 )

 /**
  * Print a hex dump if we are at a certain debug level
  *
  * @v level		Debug level
  * @v dispaddr		Display address
  * @v data		Data to print
  * @v len		Length of data
  */
 #define DBG_HDA_IF( level, dispaddr, data, len )  do {		\
 		if ( DBG_ ## level ) {				\
 			union {					\
 				unsigned long ul;		\
 				typeof ( dispaddr ) raw;	\
 			} da;					\
 			da.raw = dispaddr;			\
 			dbg_hex_dump_da ( da.ul, data, len );	\
 		}						\
 	} while ( 0 )

 /**
  * Print a hex dump if we are at a certain debug level
  *
  * @v level		Debug level
  * @v data		Data to print
  * @v len		Length of data
  */
 #define DBG_HD_IF( level, data, len ) do {			\
 		const void *_data = data;			\
 		DBG_HDA_IF ( level, _data, _data, len );	\
 	} while ( 0 )

 /**
  * Select colour for debug messages if we are at a certain debug level
  *
  * @v level		Debug level
  * @v id		Message stream ID
  */
 #define DBG_AC_IF( level, id ) do {				\
 		if ( DBG_ ## level ) {				\
 			union {					\
 				unsigned long ul;		\
 				typeof ( id ) raw;		\
 			} dbg_stream;				\
 			dbg_stream.raw = id;			\
 			dbg_autocolourise ( dbg_stream.ul );	\
 		}						\
 	} while ( 0 )

 /**
  * Revert colour for debug messages if we are at a certain debug level
  *
  * @v level		Debug level
  */
 #define DBG_DC_IF( level ) do {					\
 		if ( DBG_ ## level ) {				\
 			dbg_decolourise();			\
 		}						\
 	} while ( 0 )

 /* Autocolourising versions of the DBGxxx_IF() macros */

 #define DBGC_IF( level, id, ... ) do {				\
 		DBG_AC_IF ( level, id );			\
 		DBG_IF ( level, __VA_ARGS__ );			\
 		DBG_DC_IF ( level );				\
 	} while ( 0 )

 #define DBGC_HDA_IF( level, id, ... ) do {			\
 		DBG_AC_IF ( level, id );			\
 		DBG_HDA_IF ( level, __VA_ARGS__ );		\
 		DBG_DC_IF ( level );				\
 	} while ( 0 )

 #define DBGC_HD_IF( level, id, ... ) do {			\
 		DBG_AC_IF ( level, id );			\
 		DBG_HD_IF ( level, __VA_ARGS__ );		\
 		DBG_DC_IF ( level );				\
 	} while ( 0 )

 /* Versions of the DBGxxx_IF() macros that imply DBGxxx_IF( LOG, ... )*/

 #define DBG( ... )		DBG_IF		( LOG, __VA_ARGS__ )
 #define DBG_HDA( ... )		DBG_HDA_IF	( LOG, __VA_ARGS__ )
 #define DBG_HD( ... )		DBG_HD_IF	( LOG, __VA_ARGS__ )
 #define DBGC( ... )		DBGC_IF		( LOG, __VA_ARGS__ )
 #define DBGC_HDA( ... )		DBGC_HDA_IF	( LOG, __VA_ARGS__ )
 #define DBGC_HD( ... )		DBGC_HD_IF	( LOG, __VA_ARGS__ )

 /* Versions of the DBGxxx_IF() macros that imply DBGxxx_IF( EXTRA, ... )*/

 #define DBG2( ... )		DBG_IF		( EXTRA, __VA_ARGS__ )
 #define DBG2_HDA( ... )		DBG_HDA_IF	( EXTRA, __VA_ARGS__ )
 #define DBG2_HD( ... )		DBG_HD_IF	( EXTRA, __VA_ARGS__ )
 #define DBGC2( ... )		DBGC_IF		( EXTRA, __VA_ARGS__ )
 #define DBGC2_HDA( ... )	DBGC_HDA_IF	( EXTRA, __VA_ARGS__ )
 #define DBGC2_HD( ... )		DBGC_HD_IF	( EXTRA, __VA_ARGS__ )

 /* Versions of the DBGxxx_IF() macros that imply DBGxxx_IF( PROFILE, ... )*/

 #define DBGP( ... )		DBG_IF		( PROFILE, __VA_ARGS__ )
 #define DBGP_HDA( ... )		DBG_HDA_IF	( PROFILE, __VA_ARGS__ )
 #define DBGP_HD( ... )		DBG_HD_IF	( PROFILE, __VA_ARGS__ )
 #define DBGCP( ... )		DBGC_IF		( PROFILE, __VA_ARGS__ )
 #define DBGCP_HDA( ... )	DBGC_HDA_IF	( PROFILE, __VA_ARGS__ )
 #define DBGCP_HD( ... )		DBGC_HD_IF	( PROFILE, __VA_ARGS__ )

 /* Versions of the DBGxxx_IF() macros that imply DBGxxx_IF( IO, ... )*/

 #define DBGIO( ... )		DBG_IF		( IO, __VA_ARGS__ )
 #define DBGIO_HDA( ... )	DBG_HDA_IF	( IO, __VA_ARGS__ )
 #define DBGIO_HD( ... )		DBG_HD_IF	( IO, __VA_ARGS__ )
 #define DBGCIO( ... )		DBGC_IF		( IO, __VA_ARGS__ )
 #define DBGCIO_HDA( ... )	DBGC_HDA_IF	( IO, __VA_ARGS__ )
 #define DBGCIO_HD( ... )	DBGC_HD_IF	( IO, __VA_ARGS__ )


 #if DEBUG_SYMBOL == 0
 #define NDEBUG
 #endif

 #endif /* ASSEMBLY */
 /** @} */

 /** @defgroup attrs Miscellaneous attributes
  * @{
  */
 #ifndef ASSEMBLY

 /** Declare a data structure as packed. */
 #define PACKED __attribute__ (( packed ))

 /** Declare a variable or data structure as unused. */
 #define __unused __attribute__ (( unused ))

 /**
  * Declare a function as pure - i.e. without side effects
  */
 #define __pure __attribute__ (( pure ))

 /**
  * Declare a function as const - i.e. it does not access global memory
  * (including dereferencing pointers passed to it) at all.
  * Must also not call any non-const functions.
  */
 #define __const __attribute__ (( const ))

 /**
  * Declare a function's pointer parameters as non-null - i.e. force
  * compiler to check pointers at compile time and enable possible
  * optimizations based on that fact
  */
 #define __nonnull __attribute__ (( nonnull ))

 /**
  * Declare a pointer returned by a function as a unique memory address
  * as returned by malloc-type functions.
  */
 #define __malloc __attribute__ (( malloc ))

 /**
  * Declare a function as used.
  *
  * Necessary only if the function is called only from assembler code.
  */
 #define __used __attribute__ (( used ))

 /** Declare a data structure to be aligned with 16-byte alignment */
 #define __aligned __attribute__ (( aligned ( 16 ) ))

 /** Declare a function to be always inline */
 #define __always_inline __attribute__ (( always_inline ))

 /**
  * Shared data.
  *
  * To save space in the binary when multiple-driver images are
  * compiled, uninitialised data areas can be shared between drivers.
  * This will typically be used to share statically-allocated receive
  * and transmit buffers between drivers.
  *
  * Use as e.g.
  *
  * @code
  *
  *   struct {
  *	char	rx_buf[NUM_RX_BUF][RX_BUF_SIZE];
  *	char	tx_buf[TX_BUF_SIZE];
  *   } my_static_data __shared;
  *
  * @endcode
  *
  */
 #define __shared __asm__ ( "_shared_bss" ) __aligned

 #endif /* ASSEMBLY */
 /** @} */

 /**
  * Optimisation barrier
  */
 #ifndef ASSEMBLY
 #define barrier() __asm__ __volatile__ ( "" : : : "memory" )
 #endif /* ASSEMBLY */

 /**
  * @defgroup licences Licence declarations
  *
  * For reasons that are partly historical, various different files
  * within the gPXE codebase have differing licences.
  *
  * @{
  */

 /** Declare a file as being in the public domain
  *
  * This licence declaration is applicable when a file states itself to
  * be in the public domain.
  */
 #define FILE_LICENCE_PUBLIC_DOMAIN \
 	PROVIDE_SYMBOL ( __licence_public_domain )

 /** Declare a file as being under version 2 (or later) of the GNU GPL
  *
  * This licence declaration is applicable when a file states itself to
  * be licensed under the GNU GPL; "either version 2 of the License, or
  * (at your option) any later version".
  */
 #define FILE_LICENCE_GPL2_OR_LATER \
 	PROVIDE_SYMBOL ( __licence_gpl2_or_later )

 /** Declare a file as being under version 2 of the GNU GPL
  *
  * This licence declaration is applicable when a file states itself to
  * be licensed under version 2 of the GPL, and does not include the
  * "or, at your option, any later version" clause.
  */
 #define FILE_LICENCE_GPL2_ONLY \
 	PROVIDE_SYMBOL ( __licence_gpl2_only )

 /** Declare a file as being under any version of the GNU GPL
  *
  * This licence declaration is applicable when a file states itself to
  * be licensed under the GPL, but does not specify a version.
  *
  * According to section 9 of the GPLv2, "If the Program does not
  * specify a version number of this License, you may choose any
  * version ever published by the Free Software Foundation".
  */
 #define FILE_LICENCE_GPL_ANY \
 	PROVIDE_SYMBOL ( __licence_gpl_any )

 /** Declare a file as being under the three-clause BSD licence
  *
  * This licence declaration is applicable when a file states itself to
  * be licensed under terms allowing redistribution in source and
  * binary forms (with or without modification) provided that:
  *
  *     redistributions of source code retain the copyright notice,
  *     list of conditions and any attached disclaimers
  *
  *     redistributions in binary form reproduce the copyright notice,
  *     list of conditions and any attached disclaimers in the
  *     documentation and/or other materials provided with the
  *     distribution
  *
  *     the name of the author is not used to endorse or promote
  *     products derived from the software without specific prior
  *     written permission
  *
  * It is not necessary for the file to explicitly state that it is
  * under a "BSD" licence; only that the licensing terms be
  * functionally equivalent to the standard three-clause BSD licence.
  */
 #define FILE_LICENCE_BSD3 \
 	PROVIDE_SYMBOL ( __licence_bsd3 )

 /** Declare a file as being under the two-clause BSD licence
  *
  * This licence declaration is applicable when a file states itself to
  * be licensed under terms allowing redistribution in source and
  * binary forms (with or without modification) provided that:
  *
  *     redistributions of source code retain the copyright notice,
  *     list of conditions and any attached disclaimers
  *
  *     redistributions in binary form reproduce the copyright notice,
  *     list of conditions and any attached disclaimers in the
  *     documentation and/or other materials provided with the
  *     distribution
  *
  * It is not necessary for the file to explicitly state that it is
  * under a "BSD" licence; only that the licensing terms be
  * functionally equivalent to the standard two-clause BSD licence.
  */
 #define FILE_LICENCE_BSD2 \
 	PROVIDE_SYMBOL ( __licence_bsd2 )

 /** Declare a file as being under the one-clause MIT-style licence
  *
  * This licence declaration is applicable when a file states itself to
  * be licensed under terms allowing redistribution for any purpose
  * with or without fee, provided that the copyright notice and
  * permission notice appear in all copies.
  */
 #define FILE_LICENCE_MIT \
 	PROVIDE_SYMBOL ( __licence_mit )

 /** Declare a particular licence as applying to a file */
 #define FILE_LICENCE( _licence ) FILE_LICENCE_ ## _licence

 /** @} */

 /* This file itself is under GPLv2-or-later */
 FILE_LICENCE ( GPL2_OR_LATER );

 #include <bits/compiler.h>

 #endif /* COMPILER_H */
	#ifndef COMPILER_H
	#define COMPILER_H

	/*
	* Doxygen can't cope with some of the more esoteric areas of C, so we
	* make its life simpler.
	*
	*/
	#ifdef DOXYGEN
	#define __attribute__(x)
	#endif

	/** @file
	*
	* Global compiler definitions.
	*
	* This file is implicitly included by every @c .c file in Etherboot.
	* It defines global macros such as DBG().
	*
	* We arrange for each object to export the symbol @c obj_OBJECT
	* (where @c OBJECT is the object name, e.g. @c rtl8139) as a global
	* symbol, so that the linker can drag in selected object files from
	* the library using <tt> -u obj_OBJECT </tt>.
	*
	*/

	/* Force visibility of all symbols to "hidden", i.e. inform gcc that
	* all symbol references resolve strictly within our final binary.
	* This avoids unnecessary PLT/GOT entries on x86_64.
	*
	* This is a stronger claim than specifying "-fvisibility=hidden",
	* since it also affects symbols marked with "extern".
	*/
	#ifndef ASSEMBLY
	#if __GNUC__ >= 4
	#pragma GCC visibility push(hidden)
	#endif
	#endif /* ASSEMBLY */

	#undef _S1
	#undef _S2
	#undef _C1
	#undef _C2

	/** Concatenate non-expanded arguments */
	#define _C1( x, y ) x ## y
	/** Concatenate expanded arguments */
	#define _C2( x, y ) _C1 ( x, y )

	/** Stringify non-expanded argument */
	#define _S1( x ) #x
	/** Stringify expanded argument */
	#define _S2( x ) _S1 ( x )

	/**
	* @defgroup symmacros Macros to provide or require explicit symbols
	* @{
	*/

	/** Provide a symbol within this object file */
	#ifdef ASSEMBLY
	#define PROVIDE_SYMBOL( _sym ) \
	.globl _sym ; \
	.comm _sym, 0
	#else /* ASSEMBLY */
	#define PROVIDE_SYMBOL( _sym ) \
	char _sym[0]
	#endif /* ASSEMBLY */

	/** Require a symbol within this object file
	*
	* The symbol is referenced by a relocation in a discarded section, so
	* if it is not available at link time the link will fail.
	*/
	#ifdef ASSEMBLY
	#define REQUIRE_SYMBOL( _sym ) \
	.section ".discard", "a", @progbits ; \
	.extern _sym ; \
	.long _sym ; \
	.previous
	#else /* ASSEMBLY */
	#define REQUIRE_SYMBOL( _sym ) \
	extern char _sym; \
	static char * _C2 ( _C2 ( __require_, _sym ), _C2 ( _, __LINE__ ) ) \
	__attribute__ (( section ( ".discard" ), used )) \
	= &_sym
	#endif

	/** Request that a symbol be available at runtime
	*
	* The requested symbol is entered as undefined into the symbol table
	* for this object, so the linker will pull in other object files as
	* necessary to satisfy the reference. However, the undefined symbol
	* is not referenced in any relocations, so the link can still succeed
	* if no file contains it.
	*
	* A symbol passed to this macro may not be referenced anywhere
	* else in the file. If you want to do that, see IMPORT_SYMBOL().
	*/
	#ifdef ASSEMBLY
	#define REQUEST_SYMBOL( _sym ) \
	.equ __need_ ## _sym, _sym
	#else /* ASSEMBLY */
	#define REQUEST_SYMBOL( _sym ) \
	__asm__ ( ".equ\t__need_" #_sym ", " #_sym )
	#endif /* ASSEMBLY */

	/** Set up a symbol to be usable in another file by IMPORT_SYMBOL()
	*
	* The symbol must already be marked as global.
	*/
	#define EXPORT_SYMBOL( _sym ) PROVIDE_SYMBOL ( __export_ ## _sym )

	/** Make a symbol usable to this file if available at link time
	*
	* If no file passed to the linker contains the symbol, it will have
	* @c NULL value to future uses. Keep in mind that the symbol value is
	* really the @e address of a variable or function; see the code
	* snippet below.
	*
	* In C using IMPORT_SYMBOL, you must specify the declaration as the
	* second argument, for instance
	*
	* @code
	* IMPORT_SYMBOL ( my_func, int my_func ( int arg ) );
	* IMPORT_SYMBOL ( my_var, int my_var );
	*
	* void use_imports ( void ) {
	* if ( my_func && &my_var )
	* my_var = my_func ( my_var );
	* }
	* @endcode
	*
	* GCC considers a weak declaration to override a strong one no matter
	* which comes first, so it is safe to include a header file declaring
	* the imported symbol normally, but providing the declaration to
	* IMPORT_SYMBOL is still required.
	*
	* If no EXPORT_SYMBOL declaration exists for the imported symbol in
	* another file, the behavior will be most likely be identical to that
	* for an unavailable symbol.
	*/
	#ifdef ASSEMBLY
	#define IMPORT_SYMBOL( _sym ) \
	REQUEST_SYMBOL ( __export_ ## _sym ) ; \
	.weak _sym
	#else /* ASSEMBLY */
	#define IMPORT_SYMBOL( _sym, _decl ) \
	REQUEST_SYMBOL ( __export_ ## _sym ) ; \
	extern _decl __attribute__ (( weak ))
	#endif

	/** @} */

	/**
	* @defgroup objmacros Macros to provide or require explicit objects
	* @{
	*/

	#define PREFIX_OBJECT( _prefix ) _C2 ( _prefix, OBJECT )
	#define OBJECT_SYMBOL PREFIX_OBJECT ( obj_ )
	#define REQUEST_EXPANDED( _sym ) REQUEST_SYMBOL ( _sym )
	#define CONFIG_SYMBOL PREFIX_OBJECT ( obj_config_ )

	/** Always provide the symbol for the current object (defined by -DOBJECT) */
	PROVIDE_SYMBOL ( OBJECT_SYMBOL );

	/** Pull in an object-specific configuration file if available */
	REQUEST_EXPANDED ( CONFIG_SYMBOL );

	/** Explicitly require another object */
	#define REQUIRE_OBJECT( _obj ) REQUIRE_SYMBOL ( obj_ ## _obj )

	/** Pull in another object if it exists */
	#define REQUEST_OBJECT( _obj ) REQUEST_SYMBOL ( obj_ ## _obj )

	/** @} */

	/** Select file identifier for errno.h (if used) */
	#define ERRFILE PREFIX_OBJECT ( ERRFILE_ )

	/**
	* @defgroup weakmacros Macros to manage weak symbol definitions
	*
	* Weak symbols allow one to reference a function in another file
	* without necessarily requiring that file to be linked in. In their
	* native form, the function will be @c NULL if its file is not linked
	* in; these macros provide an inline wrapper that returns an
	* appropriate error indication or default value.
	*
	* @{
	*/
	#ifndef ASSEMBLY

	/** Mangle @a name into its weakly-referenced implementation */
	#define __weak_impl( name ) _w_ ## name

	/**
	* Declare a weak function with inline safety wrapper
	*
	* @v ret Return type of weak function
	* @v name Name of function to expose
	* @v proto Parenthesized list of arguments with types
	* @v args Parenthesized list of argument names
	* @v dfl Value to return if weak function is not available
	*/
	#define __weak_decl( ret, name, proto, args, dfl ) \
	ret __weak_impl( name ) proto __attribute__ (( weak )); \
	static inline ret name proto { \
	if ( __weak_impl( name ) ) \
	return __weak_impl( name ) args; \
	return dfl; \
	}

	#endif
	/** @} */

	/** @defgroup dbg Debugging infrastructure
	* @{
	*/
	#ifndef ASSEMBLY

	/** @def DBG
	*
	* Print a debugging message.
	*
	* The debug level is set at build time by specifying the @c DEBUG=
	* parameter on the @c make command line. For example, to enable
	* debugging for the PCI bus functions (in pci.c) in a @c .dsk image
	* for the @c rtl8139 card, you could use the command line
	*
	* @code
	*
	* make bin/rtl8139.dsk DEBUG=pci
	*
	* @endcode
	*
	* This will enable the debugging statements (DBG()) in pci.c. If
	* debugging is not enabled, DBG() statements will be ignored.
	*
	* You can enable debugging in several objects simultaneously by
	* separating them with commas, as in
	*
	* @code
	*
	* make bin/rtl8139.dsk DEBUG=pci,buffer,heap
	*
	* @endcode
	*
	* You can increase the debugging level for an object by specifying it
	* with @c :N, where @c N is the level, as in
	*
	* @code
	*
	* make bin/rtl8139.dsk DEBUG=pci,buffer:2,heap
	*
	* @endcode
	*
	* which would enable debugging for the PCI, buffer-handling and
	* heap-allocation code, with the buffer-handling code at level 2.
	*
	*/

	/*
	* If debug_OBJECT is set to a true value, the macro DBG(...) will
	* expand to printf(...) when compiling OBJECT, and the symbol
	* DEBUG_LEVEL will be inserted into the object file.
	*
	*/
	#define DEBUG_SYMBOL PREFIX_OBJECT ( debug_ )

	/** printf() for debugging
	*
	* This function exists so that the DBG() macros can expand to
	* printf() calls without dragging the printf() prototype into scope.
	*
	* As far as the compiler is concerned, dbg_printf() and printf() are
	* completely unrelated calls; it's only at the assembly stage that
	* references to the dbg_printf symbol are collapsed into references
	* to the printf symbol.
	*/
	extern int __attribute__ (( format ( printf, 1, 2 ) ))
	dbg_printf ( const char *fmt, ... ) asm ( "printf" );

	extern void dbg_autocolourise ( unsigned long id );
	extern void dbg_decolourise ( void );
	extern void dbg_hex_dump_da ( unsigned long dispaddr,
	const void *data, unsigned long len );

	#if DEBUG_SYMBOL
	#define DBGLVL_MAX DEBUG_SYMBOL
	#else
	#define DBGLVL_MAX 0
	#endif

	/* Allow for selective disabling of enabled debug levels */
	#if DBGLVL_MAX
	int __debug_disable;
	#define DBGLVL ( DBGLVL_MAX & ~__debug_disable )
	#define DBG_DISABLE( level ) do { \
	__debug_disable \|= ( (level) & DBGLVL_MAX ); \
	} while ( 0 )
	#define DBG_ENABLE( level ) do { \
	__debug_disable &= ~( (level) & DBGLVL_MAX ); \
	} while ( 0 )
	#else
	#define DBGLVL 0
	#define DBG_DISABLE( level ) do { } while ( 0 )
	#define DBG_ENABLE( level ) do { } while ( 0 )
	#endif

	#define DBGLVL_LOG 1
	#define DBG_LOG ( DBGLVL & DBGLVL_LOG )
	#define DBGLVL_EXTRA 2
	#define DBG_EXTRA ( DBGLVL & DBGLVL_EXTRA )
	#define DBGLVL_PROFILE 4
	#define DBG_PROFILE ( DBGLVL & DBGLVL_PROFILE )
	#define DBGLVL_IO 8
	#define DBG_IO ( DBGLVL & DBGLVL_IO )

	/**
	* Print debugging message if we are at a certain debug level
	*
	* @v level Debug level
	* @v ... printf() argument list
	*/
	#define DBG_IF( level, ... ) do { \
	if ( DBG_ ## level ) { \
	dbg_printf ( __VA_ARGS__ ); \
	} \
	} while ( 0 )

	/**
	* Print a hex dump if we are at a certain debug level
	*
	* @v level Debug level
	* @v dispaddr Display address
	* @v data Data to print
	* @v len Length of data
	*/
	#define DBG_HDA_IF( level, dispaddr, data, len ) do { \
	if ( DBG_ ## level ) { \
	union { \
	unsigned long ul; \
	typeof ( dispaddr ) raw; \
	} da; \
	da.raw = dispaddr; \
	dbg_hex_dump_da ( da.ul, data, len ); \
	} \
	} while ( 0 )

	/**
	* Print a hex dump if we are at a certain debug level
	*
	* @v level Debug level
	* @v data Data to print
	* @v len Length of data
	*/
	#define DBG_HD_IF( level, data, len ) do { \
	const void *_data = data; \
	DBG_HDA_IF ( level, _data, _data, len ); \
	} while ( 0 )

	/**
	* Select colour for debug messages if we are at a certain debug level
	*
	* @v level Debug level
	* @v id Message stream ID
	*/
	#define DBG_AC_IF( level, id ) do { \
	if ( DBG_ ## level ) { \
	union { \
	unsigned long ul; \
	typeof ( id ) raw; \
	} dbg_stream; \
	dbg_stream.raw = id; \
	dbg_autocolourise ( dbg_stream.ul ); \
	} \
	} while ( 0 )

	/**
	* Revert colour for debug messages if we are at a certain debug level
	*
	* @v level Debug level
	*/
	#define DBG_DC_IF( level ) do { \
	if ( DBG_ ## level ) { \
	dbg_decolourise(); \
	} \
	} while ( 0 )

	/* Autocolourising versions of the DBGxxx_IF() macros */

	#define DBGC_IF( level, id, ... ) do { \
	DBG_AC_IF ( level, id ); \
	DBG_IF ( level, __VA_ARGS__ ); \
	DBG_DC_IF ( level ); \
	} while ( 0 )

	#define DBGC_HDA_IF( level, id, ... ) do { \
	DBG_AC_IF ( level, id ); \
	DBG_HDA_IF ( level, __VA_ARGS__ ); \
	DBG_DC_IF ( level ); \
	} while ( 0 )

	#define DBGC_HD_IF( level, id, ... ) do { \
	DBG_AC_IF ( level, id ); \
	DBG_HD_IF ( level, __VA_ARGS__ ); \
	DBG_DC_IF ( level ); \
	} while ( 0 )

	/* Versions of the DBGxxx_IF() macros that imply DBGxxx_IF( LOG, ... )*/

	#define DBG( ... ) DBG_IF ( LOG, __VA_ARGS__ )
	#define DBG_HDA( ... ) DBG_HDA_IF ( LOG, __VA_ARGS__ )
	#define DBG_HD( ... ) DBG_HD_IF ( LOG, __VA_ARGS__ )
	#define DBGC( ... ) DBGC_IF ( LOG, __VA_ARGS__ )
	#define DBGC_HDA( ... ) DBGC_HDA_IF ( LOG, __VA_ARGS__ )
	#define DBGC_HD( ... ) DBGC_HD_IF ( LOG, __VA_ARGS__ )

	/* Versions of the DBGxxx_IF() macros that imply DBGxxx_IF( EXTRA, ... )*/

	#define DBG2( ... ) DBG_IF ( EXTRA, __VA_ARGS__ )
	#define DBG2_HDA( ... ) DBG_HDA_IF ( EXTRA, __VA_ARGS__ )
	#define DBG2_HD( ... ) DBG_HD_IF ( EXTRA, __VA_ARGS__ )
	#define DBGC2( ... ) DBGC_IF ( EXTRA, __VA_ARGS__ )
	#define DBGC2_HDA( ... ) DBGC_HDA_IF ( EXTRA, __VA_ARGS__ )
	#define DBGC2_HD( ... ) DBGC_HD_IF ( EXTRA, __VA_ARGS__ )

	/* Versions of the DBGxxx_IF() macros that imply DBGxxx_IF( PROFILE, ... )*/

	#define DBGP( ... ) DBG_IF ( PROFILE, __VA_ARGS__ )
	#define DBGP_HDA( ... ) DBG_HDA_IF ( PROFILE, __VA_ARGS__ )
	#define DBGP_HD( ... ) DBG_HD_IF ( PROFILE, __VA_ARGS__ )
	#define DBGCP( ... ) DBGC_IF ( PROFILE, __VA_ARGS__ )
	#define DBGCP_HDA( ... ) DBGC_HDA_IF ( PROFILE, __VA_ARGS__ )
	#define DBGCP_HD( ... ) DBGC_HD_IF ( PROFILE, __VA_ARGS__ )

	/* Versions of the DBGxxx_IF() macros that imply DBGxxx_IF( IO, ... )*/

	#define DBGIO( ... ) DBG_IF ( IO, __VA_ARGS__ )
	#define DBGIO_HDA( ... ) DBG_HDA_IF ( IO, __VA_ARGS__ )
	#define DBGIO_HD( ... ) DBG_HD_IF ( IO, __VA_ARGS__ )
	#define DBGCIO( ... ) DBGC_IF ( IO, __VA_ARGS__ )
	#define DBGCIO_HDA( ... ) DBGC_HDA_IF ( IO, __VA_ARGS__ )
	#define DBGCIO_HD( ... ) DBGC_HD_IF ( IO, __VA_ARGS__ )


	#if DEBUG_SYMBOL == 0
	#define NDEBUG
	#endif

	#endif /* ASSEMBLY */
	/** @} */

	/** @defgroup attrs Miscellaneous attributes
	* @{
	*/
	#ifndef ASSEMBLY

	/** Declare a data structure as packed. */
	#define PACKED __attribute__ (( packed ))

	/** Declare a variable or data structure as unused. */
	#define __unused __attribute__ (( unused ))

	/**
	* Declare a function as pure - i.e. without side effects
	*/
	#define __pure __attribute__ (( pure ))

	/**
	* Declare a function as const - i.e. it does not access global memory
	* (including dereferencing pointers passed to it) at all.
	* Must also not call any non-const functions.
	*/
	#define __const __attribute__ (( const ))

	/**
	* Declare a function's pointer parameters as non-null - i.e. force
	* compiler to check pointers at compile time and enable possible
	* optimizations based on that fact
	*/
	#define __nonnull __attribute__ (( nonnull ))

	/**
	* Declare a pointer returned by a function as a unique memory address
	* as returned by malloc-type functions.
	*/
	#define __malloc __attribute__ (( malloc ))

	/**
	* Declare a function as used.
	*
	* Necessary only if the function is called only from assembler code.
	*/
	#define __used __attribute__ (( used ))

	/** Declare a data structure to be aligned with 16-byte alignment */
	#define __aligned __attribute__ (( aligned ( 16 ) ))

	/** Declare a function to be always inline */
	#define __always_inline __attribute__ (( always_inline ))

	/**
	* Shared data.
	*
	* To save space in the binary when multiple-driver images are
	* compiled, uninitialised data areas can be shared between drivers.
	* This will typically be used to share statically-allocated receive
	* and transmit buffers between drivers.
	*
	* Use as e.g.
	*
	* @code
	*
	* struct {
	* char rx_buf[NUM_RX_BUF][RX_BUF_SIZE];
	* char tx_buf[TX_BUF_SIZE];
	* } my_static_data __shared;
	*
	* @endcode
	*
	*/
	#define __shared __asm__ ( "_shared_bss" ) __aligned

	#endif /* ASSEMBLY */
	/** @} */

	/**
	* Optimisation barrier
	*/
	#ifndef ASSEMBLY
	#define barrier() __asm__ __volatile__ ( "" : : : "memory" )
	#endif /* ASSEMBLY */

	/**
	* @defgroup licences Licence declarations
	*
	* For reasons that are partly historical, various different files
	* within the gPXE codebase have differing licences.
	*
	* @{
	*/

	/** Declare a file as being in the public domain
	*
	* This licence declaration is applicable when a file states itself to
	* be in the public domain.
	*/
	#define FILE_LICENCE_PUBLIC_DOMAIN \
	PROVIDE_SYMBOL ( __licence_public_domain )

	/** Declare a file as being under version 2 (or later) of the GNU GPL
	*
	* This licence declaration is applicable when a file states itself to
	* be licensed under the GNU GPL; "either version 2 of the License, or
	* (at your option) any later version".
	*/
	#define FILE_LICENCE_GPL2_OR_LATER \
	PROVIDE_SYMBOL ( __licence_gpl2_or_later )

	/** Declare a file as being under version 2 of the GNU GPL
	*
	* This licence declaration is applicable when a file states itself to
	* be licensed under version 2 of the GPL, and does not include the
	* "or, at your option, any later version" clause.
	*/
	#define FILE_LICENCE_GPL2_ONLY \
	PROVIDE_SYMBOL ( __licence_gpl2_only )

	/** Declare a file as being under any version of the GNU GPL
	*
	* This licence declaration is applicable when a file states itself to
	* be licensed under the GPL, but does not specify a version.
	*
	* According to section 9 of the GPLv2, "If the Program does not
	* specify a version number of this License, you may choose any
	* version ever published by the Free Software Foundation".
	*/
	#define FILE_LICENCE_GPL_ANY \
	PROVIDE_SYMBOL ( __licence_gpl_any )

	/** Declare a file as being under the three-clause BSD licence
	*
	* This licence declaration is applicable when a file states itself to
	* be licensed under terms allowing redistribution in source and
	* binary forms (with or without modification) provided that:
	*
	* redistributions of source code retain the copyright notice,
	* list of conditions and any attached disclaimers
	*
	* redistributions in binary form reproduce the copyright notice,
	* list of conditions and any attached disclaimers in the
	* documentation and/or other materials provided with the
	* distribution
	*
	* the name of the author is not used to endorse or promote
	* products derived from the software without specific prior
	* written permission
	*
	* It is not necessary for the file to explicitly state that it is
	* under a "BSD" licence; only that the licensing terms be
	* functionally equivalent to the standard three-clause BSD licence.
	*/
	#define FILE_LICENCE_BSD3 \
	PROVIDE_SYMBOL ( __licence_bsd3 )

	/** Declare a file as being under the two-clause BSD licence
	*
	* This licence declaration is applicable when a file states itself to
	* be licensed under terms allowing redistribution in source and
	* binary forms (with or without modification) provided that:
	*
	* redistributions of source code retain the copyright notice,
	* list of conditions and any attached disclaimers
	*
	* redistributions in binary form reproduce the copyright notice,
	* list of conditions and any attached disclaimers in the
	* documentation and/or other materials provided with the
	* distribution
	*
	* It is not necessary for the file to explicitly state that it is
	* under a "BSD" licence; only that the licensing terms be
	* functionally equivalent to the standard two-clause BSD licence.
	*/
	#define FILE_LICENCE_BSD2 \
	PROVIDE_SYMBOL ( __licence_bsd2 )

	/** Declare a file as being under the one-clause MIT-style licence
	*
	* This licence declaration is applicable when a file states itself to
	* be licensed under terms allowing redistribution for any purpose
	* with or without fee, provided that the copyright notice and
	* permission notice appear in all copies.
	*/
	#define FILE_LICENCE_MIT \
	PROVIDE_SYMBOL ( __licence_mit )

	/** Declare a particular licence as applying to a file */
	#define FILE_LICENCE( _licence ) FILE_LICENCE_ ## _licence

	/** @} */

	/* This file itself is under GPLv2-or-later */
	FILE_LICENCE ( GPL2_OR_LATER );

	#include <bits/compiler.h>

	#endif /* COMPILER_H */