src/arch/x86/include/bits/bigint.h - ipxe - Git at Google

 #ifndef _BITS_BIGINT_H
 #define _BITS_BIGINT_H

 /** @file
  *
  * Big integer support
  */

 FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );

 #include <stdint.h>
 #include <string.h>

 /** Element of a big integer */
 typedef uint32_t bigint_element_t;

 /**
  * Initialise big integer
  *
  * @v value0		Element 0 of big integer to initialise
  * @v size		Number of elements
  * @v data		Raw data
  * @v len		Length of raw data
  */
 static inline __attribute__ (( always_inline )) void
 bigint_init_raw ( uint32_t *value0, unsigned int size,
 		  const void *data, size_t len ) {
 	bigint_t ( size ) __attribute__ (( may_alias )) *value =
 		( ( void * ) value0 );
 	long pad_len = ( sizeof ( *value ) - len );
 	void *discard_D;
 	long discard_c;

 	/* Copy raw data in reverse order, padding with zeros */
 	__asm__ __volatile__ ( "\n1:\n\t"
 			       "movb -1(%3,%1), %%al\n\t"
 			       "stosb\n\t"
 			       "loop 1b\n\t"
 			       "xorl %%eax, %%eax\n\t"
 			       "mov %4, %1\n\t"
 			       "rep stosb\n\t"
 			       : "=&D" ( discard_D ), "=&c" ( discard_c ),
 				 "+m" ( *value )
 			       : "r" ( data ), "g" ( pad_len ), "0" ( value0 ),
 				 "1" ( len )
 			       : "eax" );
 }

 /**
  * Add big integers
  *
  * @v addend0		Element 0 of big integer to add
  * @v value0		Element 0 of big integer to be added to
  * @v size		Number of elements
  */
 static inline __attribute__ (( always_inline )) void
 bigint_add_raw ( const uint32_t *addend0, uint32_t *value0,
 		 unsigned int size ) {
 	bigint_t ( size ) __attribute__ (( may_alias )) *value =
 		( ( void * ) value0 );
 	long index;
 	void *discard_S;
 	long discard_c;

 	__asm__ __volatile__ ( "xor %0, %0\n\t" /* Zero %0 and clear CF */
 			       "\n1:\n\t"
 			       "lodsl\n\t"
 			       "adcl %%eax, (%4,%0,4)\n\t"
 			       "inc %0\n\t" /* Does not affect CF */
 			       "loop 1b\n\t"
 			       : "=&r" ( index ), "=&S" ( discard_S ),
 				 "=&c" ( discard_c ), "+m" ( *value )
 			       : "r" ( value0 ), "1" ( addend0 ), "2" ( size )
 			       : "eax" );
 }

 /**
  * Subtract big integers
  *
  * @v subtrahend0	Element 0 of big integer to subtract
  * @v value0		Element 0 of big integer to be subtracted from
  * @v size		Number of elements
  */
 static inline __attribute__ (( always_inline )) void
 bigint_subtract_raw ( const uint32_t *subtrahend0, uint32_t *value0,
 		      unsigned int size ) {
 	bigint_t ( size ) __attribute__ (( may_alias )) *value =
 		( ( void * ) value0 );
 	long index;
 	void *discard_S;
 	long discard_c;

 	__asm__ __volatile__ ( "xor %0, %0\n\t" /* Zero %0 and clear CF */
 			       "\n1:\n\t"
 			       "lodsl\n\t"
 			       "sbbl %%eax, (%4,%0,4)\n\t"
 			       "inc %0\n\t" /* Does not affect CF */
 			       "loop 1b\n\t"
 			       : "=&r" ( index ), "=&S" ( discard_S ),
 				 "=&c" ( discard_c ), "+m" ( *value )
 			       : "r" ( value0 ), "1" ( subtrahend0 ),
 				 "2" ( size )
 			       : "eax" );
 }

 /**
  * Rotate big integer left
  *
  * @v value0		Element 0 of big integer
  * @v size		Number of elements
  */
 static inline __attribute__ (( always_inline )) void
 bigint_rol_raw ( uint32_t *value0, unsigned int size ) {
 	bigint_t ( size ) __attribute__ (( may_alias )) *value =
 		( ( void * ) value0 );
 	long index;
 	long discard_c;

 	__asm__ __volatile__ ( "xor %0, %0\n\t" /* Zero %0 and clear CF */
 			       "\n1:\n\t"
 			       "rcll $1, (%3,%0,4)\n\t"
 			       "inc %0\n\t" /* Does not affect CF */
 			       "loop 1b\n\t"
 			       : "=&r" ( index ), "=&c" ( discard_c ),
 				 "+m" ( *value )
 			       : "r" ( value0 ), "1" ( size ) );
 }

 /**
  * Rotate big integer right
  *
  * @v value0		Element 0 of big integer
  * @v size		Number of elements
  */
 static inline __attribute__ (( always_inline )) void
 bigint_ror_raw ( uint32_t *value0, unsigned int size ) {
 	bigint_t ( size ) __attribute__ (( may_alias )) *value =
 		( ( void * ) value0 );
 	long discard_c;

 	__asm__ __volatile__ ( "clc\n\t"
 			       "\n1:\n\t"
 			       "rcrl $1, -4(%2,%0,4)\n\t"
 			       "loop 1b\n\t"
 			       : "=&c" ( discard_c ), "+m" ( *value )
 			       : "r" ( value0 ), "0" ( size ) );
 }

 /**
  * Test if big integer is equal to zero
  *
  * @v value0		Element 0 of big integer
  * @v size		Number of elements
  * @ret is_zero		Big integer is equal to zero
  */
 static inline __attribute__ (( always_inline, pure )) int
 bigint_is_zero_raw ( const uint32_t *value0, unsigned int size ) {
 	void *discard_D;
 	long discard_c;
 	int result;

 	__asm__ __volatile__ ( "xor %0, %0\n\t" /* Set ZF */
 			       "repe scasl\n\t"
 			       "sete %b0\n\t"
 			       : "=&a" ( result ), "=&D" ( discard_D ),
 				 "=&c" ( discard_c )
 			       : "1" ( value0 ), "2" ( size ) );
 	return result;
 }

 /**
  * Compare big integers
  *
  * @v value0		Element 0 of big integer
  * @v reference0	Element 0 of reference big integer
  * @v size		Number of elements
  * @ret geq		Big integer is greater than or equal to the reference
  */
 static inline __attribute__ (( always_inline, pure )) int
 bigint_is_geq_raw ( const uint32_t *value0, const uint32_t *reference0,
 		    unsigned int size ) {
 	long discard_c;
 	long discard_tmp;
 	int result;

 	__asm__ __volatile__ ( "\n1:\n\t"
 			       "movl -4(%3, %1, 4), %k2\n\t"
 			       "cmpl -4(%4, %1, 4), %k2\n\t"
 			       "loope 1b\n\t"
 			       "setae %b0\n\t"
 			       : "=q" ( result ), "=&c" ( discard_c ),
 				 "=&r" ( discard_tmp )
 			       : "r" ( value0 ), "r" ( reference0 ),
 				 "0" ( 0 ), "1" ( size ) );
 	return result;
 }

 /**
  * Test if bit is set in big integer
  *
  * @v value0		Element 0 of big integer
  * @v size		Number of elements
  * @v bit		Bit to test
  * @ret is_set		Bit is set
  */
 static inline __attribute__ (( always_inline )) int
 bigint_bit_is_set_raw ( const uint32_t *value0, unsigned int size,
 			unsigned int bit ) {
 	const bigint_t ( size ) __attribute__ (( may_alias )) *value =
 		( ( const void * ) value0 );
 	unsigned int index = ( bit / ( 8 * sizeof ( value->element[0] ) ) );
 	unsigned int subindex = ( bit % ( 8 * sizeof ( value->element[0] ) ) );

 	return ( value->element[index] & ( 1 << subindex ) );
 }

 /**
  * Find highest bit set in big integer
  *
  * @v value0		Element 0 of big integer
  * @v size		Number of elements
  * @ret max_bit		Highest bit set + 1 (or 0 if no bits set)
  */
 static inline __attribute__ (( always_inline )) int
 bigint_max_set_bit_raw ( const uint32_t *value0, unsigned int size ) {
 	long discard_c;
 	int result;

 	__asm__ __volatile__ ( "\n1:\n\t"
 			       "bsrl -4(%2,%1,4), %0\n\t"
 			       "loopz 1b\n\t"
 			       "rol %1\n\t" /* Does not affect ZF */
 			       "rol %1\n\t"
 			       "leal 1(%k0,%k1,8), %k0\n\t"
 			       "jnz 2f\n\t"
 			       "xor %0, %0\n\t"
 			       "\n2:\n\t"
 			       : "=&r" ( result ), "=&c" ( discard_c )
 			       : "r" ( value0 ), "1" ( size ) );
 	return result;
 }

 /**
  * Grow big integer
  *
  * @v source0		Element 0 of source big integer
  * @v source_size	Number of elements in source big integer
  * @v dest0		Element 0 of destination big integer
  * @v dest_size		Number of elements in destination big integer
  */
 static inline __attribute__ (( always_inline )) void
 bigint_grow_raw ( const uint32_t *source0, unsigned int source_size,
 		  uint32_t *dest0, unsigned int dest_size ) {
 	bigint_t ( dest_size ) __attribute__ (( may_alias )) *dest =
 		( ( void * ) dest0 );
 	long pad_size = ( dest_size - source_size );
 	void *discard_D;
 	void *discard_S;
 	long discard_c;

 	__asm__ __volatile__ ( "rep movsl\n\t"
 			       "xorl %%eax, %%eax\n\t"
 			       "mov %4, %2\n\t"
 			       "rep stosl\n\t"
 			       : "=&D" ( discard_D ), "=&S" ( discard_S ),
 				 "=&c" ( discard_c ), "+m" ( *dest )
 			       : "g" ( pad_size ), "0" ( dest0 ),
 				 "1" ( source0 ), "2" ( source_size )
 			       : "eax" );
 }

 /**
  * Shrink big integer
  *
  * @v source0		Element 0 of source big integer
  * @v source_size	Number of elements in source big integer
  * @v dest0		Element 0 of destination big integer
  * @v dest_size		Number of elements in destination big integer
  */
 static inline __attribute__ (( always_inline )) void
 bigint_shrink_raw ( const uint32_t *source0, unsigned int source_size __unused,
 		    uint32_t *dest0, unsigned int dest_size ) {
 	bigint_t ( dest_size ) __attribute__ (( may_alias )) *dest =
 		( ( void * ) dest0 );
 	void *discard_D;
 	void *discard_S;
 	long discard_c;

 	__asm__ __volatile__ ( "rep movsl\n\t"
 			       : "=&D" ( discard_D ), "=&S" ( discard_S ),
 				 "=&c" ( discard_c ), "+m" ( *dest )
 			       : "0" ( dest0 ), "1" ( source0 ),
 				 "2" ( dest_size )
 			       : "eax" );
 }

 /**
  * Finalise big integer
  *
  * @v value0		Element 0 of big integer to finalise
  * @v size		Number of elements
  * @v out		Output buffer
  * @v len		Length of output buffer
  */
 static inline __attribute__ (( always_inline )) void
 bigint_done_raw ( const uint32_t *value0, unsigned int size __unused,
 		  void *out, size_t len ) {
 	struct {
 		uint8_t bytes[len];
 	} __attribute__ (( may_alias )) *out_bytes = out;
 	void *discard_D;
 	long discard_c;

 	/* Copy raw data in reverse order */
 	__asm__ __volatile__ ( "\n1:\n\t"
 			       "movb -1(%3,%1), %%al\n\t"
 			       "stosb\n\t"
 			       "loop 1b\n\t"
 			       : "=&D" ( discard_D ), "=&c" ( discard_c ),
 				 "+m" ( *out_bytes )
 			       : "r" ( value0 ), "0" ( out ), "1" ( len )
 			       : "eax" );
 }

 extern void bigint_multiply_raw ( const uint32_t *multiplicand0,
 				  unsigned int multiplicand_size,
 				  const uint32_t *multiplier0,
 				  unsigned int multiplier_size,
 				  uint32_t *value0 );

 #endif /* _BITS_BIGINT_H */
	#ifndef _BITS_BIGINT_H
	#define _BITS_BIGINT_H

	/** @file
	*
	* Big integer support
	*/

	FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );

	#include <stdint.h>
	#include <string.h>

	/** Element of a big integer */
	typedef uint32_t bigint_element_t;

	/**
	* Initialise big integer
	*
	* @v value0 Element 0 of big integer to initialise
	* @v size Number of elements
	* @v data Raw data
	* @v len Length of raw data
	*/
	static inline __attribute__ (( always_inline )) void
	bigint_init_raw ( uint32_t *value0, unsigned int size,
	const void *data, size_t len ) {
	bigint_t ( size ) __attribute__ (( may_alias )) *value =
	( ( void * ) value0 );
	long pad_len = ( sizeof ( *value ) - len );
	void *discard_D;
	long discard_c;

	/* Copy raw data in reverse order, padding with zeros */
	__asm__ __volatile__ ( "\n1:\n\t"
	"movb -1(%3,%1), %%al\n\t"
	"stosb\n\t"
	"loop 1b\n\t"
	"xorl %%eax, %%eax\n\t"
	"mov %4, %1\n\t"
	"rep stosb\n\t"
	: "=&D" ( discard_D ), "=&c" ( discard_c ),
	"+m" ( *value )
	: "r" ( data ), "g" ( pad_len ), "0" ( value0 ),
	"1" ( len )
	: "eax" );
	}

	/**
	* Add big integers
	*
	* @v addend0 Element 0 of big integer to add
	* @v value0 Element 0 of big integer to be added to
	* @v size Number of elements
	*/
	static inline __attribute__ (( always_inline )) void
	bigint_add_raw ( const uint32_t addend0, uint32_t value0,
	unsigned int size ) {
	bigint_t ( size ) __attribute__ (( may_alias )) *value =
	( ( void * ) value0 );
	long index;
	void *discard_S;
	long discard_c;

	__asm__ __volatile__ ( "xor %0, %0\n\t" /* Zero %0 and clear CF */
	"\n1:\n\t"
	"lodsl\n\t"
	"adcl %%eax, (%4,%0,4)\n\t"
	"inc %0\n\t" /* Does not affect CF */
	"loop 1b\n\t"
	: "=&r" ( index ), "=&S" ( discard_S ),
	"=&c" ( discard_c ), "+m" ( *value )
	: "r" ( value0 ), "1" ( addend0 ), "2" ( size )
	: "eax" );
	}

	/**
	* Subtract big integers
	*
	* @v subtrahend0 Element 0 of big integer to subtract
	* @v value0 Element 0 of big integer to be subtracted from
	* @v size Number of elements
	*/
	static inline __attribute__ (( always_inline )) void
	bigint_subtract_raw ( const uint32_t subtrahend0, uint32_t value0,
	unsigned int size ) {
	bigint_t ( size ) __attribute__ (( may_alias )) *value =
	( ( void * ) value0 );
	long index;
	void *discard_S;
	long discard_c;

	__asm__ __volatile__ ( "xor %0, %0\n\t" /* Zero %0 and clear CF */
	"\n1:\n\t"
	"lodsl\n\t"
	"sbbl %%eax, (%4,%0,4)\n\t"
	"inc %0\n\t" /* Does not affect CF */
	"loop 1b\n\t"
	: "=&r" ( index ), "=&S" ( discard_S ),
	"=&c" ( discard_c ), "+m" ( *value )
	: "r" ( value0 ), "1" ( subtrahend0 ),
	"2" ( size )
	: "eax" );
	}

	/**
	* Rotate big integer left
	*
	* @v value0 Element 0 of big integer
	* @v size Number of elements
	*/
	static inline __attribute__ (( always_inline )) void
	bigint_rol_raw ( uint32_t *value0, unsigned int size ) {
	bigint_t ( size ) __attribute__ (( may_alias )) *value =
	( ( void * ) value0 );
	long index;
	long discard_c;

	__asm__ __volatile__ ( "xor %0, %0\n\t" /* Zero %0 and clear CF */
	"\n1:\n\t"
	"rcll $1, (%3,%0,4)\n\t"
	"inc %0\n\t" /* Does not affect CF */
	"loop 1b\n\t"
	: "=&r" ( index ), "=&c" ( discard_c ),
	"+m" ( *value )
	: "r" ( value0 ), "1" ( size ) );
	}

	/**
	* Rotate big integer right
	*
	* @v value0 Element 0 of big integer
	* @v size Number of elements
	*/
	static inline __attribute__ (( always_inline )) void
	bigint_ror_raw ( uint32_t *value0, unsigned int size ) {
	bigint_t ( size ) __attribute__ (( may_alias )) *value =
	( ( void * ) value0 );
	long discard_c;

	__asm__ __volatile__ ( "clc\n\t"
	"\n1:\n\t"
	"rcrl $1, -4(%2,%0,4)\n\t"
	"loop 1b\n\t"
	: "=&c" ( discard_c ), "+m" ( *value )
	: "r" ( value0 ), "0" ( size ) );
	}

	/**
	* Test if big integer is equal to zero
	*
	* @v value0 Element 0 of big integer
	* @v size Number of elements
	* @ret is_zero Big integer is equal to zero
	*/
	static inline __attribute__ (( always_inline, pure )) int
	bigint_is_zero_raw ( const uint32_t *value0, unsigned int size ) {
	void *discard_D;
	long discard_c;
	int result;

	__asm__ __volatile__ ( "xor %0, %0\n\t" /* Set ZF */
	"repe scasl\n\t"
	"sete %b0\n\t"
	: "=&a" ( result ), "=&D" ( discard_D ),
	"=&c" ( discard_c )
	: "1" ( value0 ), "2" ( size ) );
	return result;
	}

	/**
	* Compare big integers
	*
	* @v value0 Element 0 of big integer
	* @v reference0 Element 0 of reference big integer
	* @v size Number of elements
	* @ret geq Big integer is greater than or equal to the reference
	*/
	static inline __attribute__ (( always_inline, pure )) int
	bigint_is_geq_raw ( const uint32_t value0, const uint32_t reference0,
	unsigned int size ) {
	long discard_c;
	long discard_tmp;
	int result;

	__asm__ __volatile__ ( "\n1:\n\t"
	"movl -4(%3, %1, 4), %k2\n\t"
	"cmpl -4(%4, %1, 4), %k2\n\t"
	"loope 1b\n\t"
	"setae %b0\n\t"
	: "=q" ( result ), "=&c" ( discard_c ),
	"=&r" ( discard_tmp )
	: "r" ( value0 ), "r" ( reference0 ),
	"0" ( 0 ), "1" ( size ) );
	return result;
	}

	/**
	* Test if bit is set in big integer
	*
	* @v value0 Element 0 of big integer
	* @v size Number of elements
	* @v bit Bit to test
	* @ret is_set Bit is set
	*/
	static inline __attribute__ (( always_inline )) int
	bigint_bit_is_set_raw ( const uint32_t *value0, unsigned int size,
	unsigned int bit ) {
	const bigint_t ( size ) __attribute__ (( may_alias )) *value =
	( ( const void * ) value0 );
	unsigned int index = ( bit / ( 8 * sizeof ( value->element[0] ) ) );
	unsigned int subindex = ( bit % ( 8 * sizeof ( value->element[0] ) ) );

	return ( value->element[index] & ( 1 << subindex ) );
	}

	/**
	* Find highest bit set in big integer
	*
	* @v value0 Element 0 of big integer
	* @v size Number of elements
	* @ret max_bit Highest bit set + 1 (or 0 if no bits set)
	*/
	static inline __attribute__ (( always_inline )) int
	bigint_max_set_bit_raw ( const uint32_t *value0, unsigned int size ) {
	long discard_c;
	int result;

	__asm__ __volatile__ ( "\n1:\n\t"
	"bsrl -4(%2,%1,4), %0\n\t"
	"loopz 1b\n\t"
	"rol %1\n\t" /* Does not affect ZF */
	"rol %1\n\t"
	"leal 1(%k0,%k1,8), %k0\n\t"
	"jnz 2f\n\t"
	"xor %0, %0\n\t"
	"\n2:\n\t"
	: "=&r" ( result ), "=&c" ( discard_c )
	: "r" ( value0 ), "1" ( size ) );
	return result;
	}

	/**
	* Grow big integer
	*
	* @v source0 Element 0 of source big integer
	* @v source_size Number of elements in source big integer
	* @v dest0 Element 0 of destination big integer
	* @v dest_size Number of elements in destination big integer
	*/
	static inline __attribute__ (( always_inline )) void
	bigint_grow_raw ( const uint32_t *source0, unsigned int source_size,
	uint32_t *dest0, unsigned int dest_size ) {
	bigint_t ( dest_size ) __attribute__ (( may_alias )) *dest =
	( ( void * ) dest0 );
	long pad_size = ( dest_size - source_size );
	void *discard_D;
	void *discard_S;
	long discard_c;

	__asm__ __volatile__ ( "rep movsl\n\t"
	"xorl %%eax, %%eax\n\t"
	"mov %4, %2\n\t"
	"rep stosl\n\t"
	: "=&D" ( discard_D ), "=&S" ( discard_S ),
	"=&c" ( discard_c ), "+m" ( *dest )
	: "g" ( pad_size ), "0" ( dest0 ),
	"1" ( source0 ), "2" ( source_size )
	: "eax" );
	}

	/**
	* Shrink big integer
	*
	* @v source0 Element 0 of source big integer
	* @v source_size Number of elements in source big integer
	* @v dest0 Element 0 of destination big integer
	* @v dest_size Number of elements in destination big integer
	*/
	static inline __attribute__ (( always_inline )) void
	bigint_shrink_raw ( const uint32_t *source0, unsigned int source_size __unused,
	uint32_t *dest0, unsigned int dest_size ) {
	bigint_t ( dest_size ) __attribute__ (( may_alias )) *dest =
	( ( void * ) dest0 );
	void *discard_D;
	void *discard_S;
	long discard_c;

	__asm__ __volatile__ ( "rep movsl\n\t"
	: "=&D" ( discard_D ), "=&S" ( discard_S ),
	"=&c" ( discard_c ), "+m" ( *dest )
	: "0" ( dest0 ), "1" ( source0 ),
	"2" ( dest_size )
	: "eax" );
	}

	/**
	* Finalise big integer
	*
	* @v value0 Element 0 of big integer to finalise
	* @v size Number of elements
	* @v out Output buffer
	* @v len Length of output buffer
	*/
	static inline __attribute__ (( always_inline )) void
	bigint_done_raw ( const uint32_t *value0, unsigned int size __unused,
	void *out, size_t len ) {
	struct {
	uint8_t bytes[len];
	} __attribute__ (( may_alias )) *out_bytes = out;
	void *discard_D;
	long discard_c;

	/* Copy raw data in reverse order */
	__asm__ __volatile__ ( "\n1:\n\t"
	"movb -1(%3,%1), %%al\n\t"
	"stosb\n\t"
	"loop 1b\n\t"
	: "=&D" ( discard_D ), "=&c" ( discard_c ),
	"+m" ( *out_bytes )
	: "r" ( value0 ), "0" ( out ), "1" ( len )
	: "eax" );
	}

	extern void bigint_multiply_raw ( const uint32_t *multiplicand0,
	unsigned int multiplicand_size,
	const uint32_t *multiplier0,
	unsigned int multiplier_size,
	uint32_t *value0 );

	#endif /* _BITS_BIGINT_H */