mirror of
https://github.com/tfussell/xlnt.git
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454 lines
14 KiB
C
454 lines
14 KiB
C
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/** math functions **/
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#define LTC_MP_LT -1
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#define LTC_MP_EQ 0
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#define LTC_MP_GT 1
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#define LTC_MP_NO 0
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#define LTC_MP_YES 1
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#ifndef LTC_MECC
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typedef void ecc_point;
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#endif
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#ifndef LTC_MRSA
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typedef void rsa_key;
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#endif
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/** math descriptor */
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typedef struct {
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/** Name of the math provider */
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char *name;
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/** Bits per digit, amount of bits must fit in an unsigned long */
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int bits_per_digit;
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/* ---- init/deinit functions ---- */
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/** initialize a bignum
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@param a The number to initialize
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@return CRYPT_OK on success
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*/
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int (*init)(void **a);
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/** init copy
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@param dst The number to initialize and write to
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@param src The number to copy from
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@return CRYPT_OK on success
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*/
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int (*init_copy)(void **dst, void *src);
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/** deinit
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@param a The number to free
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@return CRYPT_OK on success
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*/
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void (*deinit)(void *a);
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/* ---- data movement ---- */
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/** negate
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@param src The number to negate
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@param dst The destination
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@return CRYPT_OK on success
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*/
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int (*neg)(void *src, void *dst);
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/** copy
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@param src The number to copy from
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@param dst The number to write to
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@return CRYPT_OK on success
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*/
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int (*copy)(void *src, void *dst);
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/* ---- trivial low level functions ---- */
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/** set small constant
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@param a Number to write to
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@param n Source upto bits_per_digit (actually meant for very small constants)
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@return CRYPT_OK on succcess
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*/
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int (*set_int)(void *a, unsigned long n);
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/** get small constant
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@param a Number to read, only fetches upto bits_per_digit from the number
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@return The lower bits_per_digit of the integer (unsigned)
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*/
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unsigned long (*get_int)(void *a);
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/** get digit n
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@param a The number to read from
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@param n The number of the digit to fetch
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@return The bits_per_digit sized n'th digit of a
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*/
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ltc_mp_digit (*get_digit)(void *a, int n);
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/** Get the number of digits that represent the number
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@param a The number to count
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@return The number of digits used to represent the number
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*/
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int (*get_digit_count)(void *a);
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/** compare two integers
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@param a The left side integer
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@param b The right side integer
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@return LTC_MP_LT if a < b, LTC_MP_GT if a > b and LTC_MP_EQ otherwise. (signed comparison)
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*/
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int (*compare)(void *a, void *b);
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/** compare against int
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@param a The left side integer
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@param b The right side integer (upto bits_per_digit)
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@return LTC_MP_LT if a < b, LTC_MP_GT if a > b and LTC_MP_EQ otherwise. (signed comparison)
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*/
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int (*compare_d)(void *a, unsigned long n);
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/** Count the number of bits used to represent the integer
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@param a The integer to count
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@return The number of bits required to represent the integer
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*/
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int (*count_bits)(void * a);
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/** Count the number of LSB bits which are zero
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@param a The integer to count
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@return The number of contiguous zero LSB bits
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*/
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int (*count_lsb_bits)(void *a);
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/** Compute a power of two
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@param a The integer to store the power in
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@param n The power of two you want to store (a = 2^n)
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@return CRYPT_OK on success
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*/
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int (*twoexpt)(void *a , int n);
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/* ---- radix conversions ---- */
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/** read ascii string
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@param a The integer to store into
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@param str The string to read
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@param radix The radix the integer has been represented in (2-64)
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@return CRYPT_OK on success
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*/
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int (*read_radix)(void *a, const char *str, int radix);
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/** write number to string
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@param a The integer to store
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@param str The destination for the string
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@param radix The radix the integer is to be represented in (2-64)
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@return CRYPT_OK on success
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*/
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int (*write_radix)(void *a, char *str, int radix);
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/** get size as unsigned char string
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@param a The integer to get the size (when stored in array of octets)
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@return The length of the integer
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*/
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unsigned long (*unsigned_size)(void *a);
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/** store an integer as an array of octets
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@param src The integer to store
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@param dst The buffer to store the integer in
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@return CRYPT_OK on success
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*/
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int (*unsigned_write)(void *src, unsigned char *dst);
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/** read an array of octets and store as integer
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@param dst The integer to load
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@param src The array of octets
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@param len The number of octets
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@return CRYPT_OK on success
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*/
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int (*unsigned_read)(void *dst, unsigned char *src, unsigned long len);
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/* ---- basic math ---- */
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/** add two integers
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@param a The first source integer
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@param b The second source integer
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@param c The destination of "a + b"
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@return CRYPT_OK on success
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*/
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int (*add)(void *a, void *b, void *c);
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/** add two integers
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@param a The first source integer
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@param b The second source integer (single digit of upto bits_per_digit in length)
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@param c The destination of "a + b"
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@return CRYPT_OK on success
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*/
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int (*addi)(void *a, unsigned long b, void *c);
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/** subtract two integers
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@param a The first source integer
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@param b The second source integer
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@param c The destination of "a - b"
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@return CRYPT_OK on success
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*/
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int (*sub)(void *a, void *b, void *c);
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/** subtract two integers
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@param a The first source integer
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@param b The second source integer (single digit of upto bits_per_digit in length)
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@param c The destination of "a - b"
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@return CRYPT_OK on success
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*/
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int (*subi)(void *a, unsigned long b, void *c);
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/** multiply two integers
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@param a The first source integer
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@param b The second source integer (single digit of upto bits_per_digit in length)
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@param c The destination of "a * b"
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@return CRYPT_OK on success
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*/
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int (*mul)(void *a, void *b, void *c);
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/** multiply two integers
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@param a The first source integer
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@param b The second source integer (single digit of upto bits_per_digit in length)
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@param c The destination of "a * b"
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@return CRYPT_OK on success
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*/
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int (*muli)(void *a, unsigned long b, void *c);
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/** Square an integer
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@param a The integer to square
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@param b The destination
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@return CRYPT_OK on success
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*/
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int (*sqr)(void *a, void *b);
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/** Divide an integer
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@param a The dividend
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@param b The divisor
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@param c The quotient (can be NULL to signify don't care)
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@param d The remainder (can be NULL to signify don't care)
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@return CRYPT_OK on success
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*/
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int (*mpdiv)(void *a, void *b, void *c, void *d);
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/** divide by two
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@param a The integer to divide (shift right)
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@param b The destination
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@return CRYPT_OK on success
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*/
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int (*div_2)(void *a, void *b);
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/** Get remainder (small value)
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@param a The integer to reduce
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@param b The modulus (upto bits_per_digit in length)
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@param c The destination for the residue
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@return CRYPT_OK on success
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*/
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int (*modi)(void *a, unsigned long b, unsigned long *c);
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/** gcd
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@param a The first integer
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@param b The second integer
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@param c The destination for (a, b)
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@return CRYPT_OK on success
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*/
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int (*gcd)(void *a, void *b, void *c);
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/** lcm
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@param a The first integer
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@param b The second integer
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@param c The destination for [a, b]
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@return CRYPT_OK on success
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*/
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int (*lcm)(void *a, void *b, void *c);
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/** Modular multiplication
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@param a The first source
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@param b The second source
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@param c The modulus
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@param d The destination (a*b mod c)
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@return CRYPT_OK on success
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*/
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int (*mulmod)(void *a, void *b, void *c, void *d);
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/** Modular squaring
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@param a The first source
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@param b The modulus
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@param c The destination (a*a mod b)
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@return CRYPT_OK on success
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*/
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int (*sqrmod)(void *a, void *b, void *c);
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/** Modular inversion
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@param a The value to invert
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@param b The modulus
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@param c The destination (1/a mod b)
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@return CRYPT_OK on success
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*/
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int (*invmod)(void *, void *, void *);
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/* ---- reduction ---- */
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/** setup montgomery
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@param a The modulus
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@param b The destination for the reduction digit
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@return CRYPT_OK on success
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*/
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int (*montgomery_setup)(void *a, void **b);
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/** get normalization value
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@param a The destination for the normalization value
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@param b The modulus
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@return CRYPT_OK on success
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*/
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int (*montgomery_normalization)(void *a, void *b);
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/** reduce a number
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@param a The number [and dest] to reduce
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@param b The modulus
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@param c The value "b" from montgomery_setup()
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@return CRYPT_OK on success
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*/
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int (*montgomery_reduce)(void *a, void *b, void *c);
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/** clean up (frees memory)
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@param a The value "b" from montgomery_setup()
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@return CRYPT_OK on success
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*/
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void (*montgomery_deinit)(void *a);
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/* ---- exponentiation ---- */
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/** Modular exponentiation
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@param a The base integer
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@param b The power (can be negative) integer
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@param c The modulus integer
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@param d The destination
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@return CRYPT_OK on success
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*/
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int (*exptmod)(void *a, void *b, void *c, void *d);
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/** Primality testing
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@param a The integer to test
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@param b The number of tests that shall be executed
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@param c The destination of the result (FP_YES if prime)
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@return CRYPT_OK on success
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*/
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int (*isprime)(void *a, int b, int *c);
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/* ---- basic math continued ---- */
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/** Modular addition
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@param a The first source
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@param b The second source
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@param c The modulus
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@param d The destination (a + b mod c)
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@return CRYPT_OK on success
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*/
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int (*addmod)(void *a, void *b, void *c, void *d);
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/** Modular substraction
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@param a The first source
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@param b The second source
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@param c The modulus
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@param d The destination (a - b mod c)
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@return CRYPT_OK on success
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*/
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int (*submod)(void *a, void *b, void *c, void *d);
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/* ---- misc stuff ---- */
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/** Make a pseudo-random mpi
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@param a The mpi to make random
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@param size The desired length
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@return CRYPT_OK on success
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*/
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int (*rand)(void *a, int size);
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} ltc_math_descriptor;
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extern ltc_math_descriptor ltc_mp;
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int ltc_init_multi(void **a, ...);
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void ltc_deinit_multi(void *a, ...);
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#ifdef LTM_DESC
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extern const ltc_math_descriptor ltm_desc;
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#endif
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#ifdef TFM_DESC
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extern const ltc_math_descriptor tfm_desc;
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#endif
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#ifdef GMP_DESC
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extern const ltc_math_descriptor gmp_desc;
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#endif
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#if !defined(DESC_DEF_ONLY) && defined(LTC_SOURCE)
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#define MP_DIGIT_BIT ltc_mp.bits_per_digit
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/* some handy macros */
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#define mp_init(a) ltc_mp.init(a)
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#define mp_init_multi ltc_init_multi
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#define mp_clear(a) ltc_mp.deinit(a)
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#define mp_clear_multi ltc_deinit_multi
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#define mp_init_copy(a, b) ltc_mp.init_copy(a, b)
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#define mp_neg(a, b) ltc_mp.neg(a, b)
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#define mp_copy(a, b) ltc_mp.copy(a, b)
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#define mp_set(a, b) ltc_mp.set_int(a, b)
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#define mp_set_int(a, b) ltc_mp.set_int(a, b)
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#define mp_get_int(a) ltc_mp.get_int(a)
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#define mp_get_digit(a, n) ltc_mp.get_digit(a, n)
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#define mp_get_digit_count(a) ltc_mp.get_digit_count(a)
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#define mp_cmp(a, b) ltc_mp.compare(a, b)
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#define mp_cmp_d(a, b) ltc_mp.compare_d(a, b)
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#define mp_count_bits(a) ltc_mp.count_bits(a)
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#define mp_cnt_lsb(a) ltc_mp.count_lsb_bits(a)
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#define mp_2expt(a, b) ltc_mp.twoexpt(a, b)
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#define mp_read_radix(a, b, c) ltc_mp.read_radix(a, b, c)
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#define mp_toradix(a, b, c) ltc_mp.write_radix(a, b, c)
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#define mp_unsigned_bin_size(a) ltc_mp.unsigned_size(a)
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#define mp_to_unsigned_bin(a, b) ltc_mp.unsigned_write(a, b)
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#define mp_read_unsigned_bin(a, b, c) ltc_mp.unsigned_read(a, b, c)
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#define mp_add(a, b, c) ltc_mp.add(a, b, c)
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#define mp_add_d(a, b, c) ltc_mp.addi(a, b, c)
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#define mp_sub(a, b, c) ltc_mp.sub(a, b, c)
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#define mp_sub_d(a, b, c) ltc_mp.subi(a, b, c)
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#define mp_mul(a, b, c) ltc_mp.mul(a, b, c)
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#define mp_mul_d(a, b, c) ltc_mp.muli(a, b, c)
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#define mp_sqr(a, b) ltc_mp.sqr(a, b)
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#define mp_div(a, b, c, d) ltc_mp.mpdiv(a, b, c, d)
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#define mp_div_2(a, b) ltc_mp.div_2(a, b)
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#define mp_mod(a, b, c) ltc_mp.mpdiv(a, b, NULL, c)
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#define mp_mod_d(a, b, c) ltc_mp.modi(a, b, c)
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#define mp_gcd(a, b, c) ltc_mp.gcd(a, b, c)
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#define mp_lcm(a, b, c) ltc_mp.lcm(a, b, c)
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#define mp_addmod(a, b, c, d) ltc_mp.addmod(a, b, c, d)
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#define mp_submod(a, b, c, d) ltc_mp.submod(a, b, c, d)
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#define mp_mulmod(a, b, c, d) ltc_mp.mulmod(a, b, c, d)
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#define mp_sqrmod(a, b, c) ltc_mp.sqrmod(a, b, c)
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#define mp_invmod(a, b, c) ltc_mp.invmod(a, b, c)
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#define mp_montgomery_setup(a, b) ltc_mp.montgomery_setup(a, b)
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#define mp_montgomery_normalization(a, b) ltc_mp.montgomery_normalization(a, b)
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#define mp_montgomery_reduce(a, b, c) ltc_mp.montgomery_reduce(a, b, c)
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#define mp_montgomery_free(a) ltc_mp.montgomery_deinit(a)
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#define mp_exptmod(a,b,c,d) ltc_mp.exptmod(a,b,c,d)
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#define mp_prime_is_prime(a, b, c) ltc_mp.isprime(a, b, c)
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#define mp_iszero(a) (mp_cmp_d(a, 0) == LTC_MP_EQ ? LTC_MP_YES : LTC_MP_NO)
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#define mp_isodd(a) (mp_get_digit_count(a) > 0 ? (mp_get_digit(a, 0) & 1 ? LTC_MP_YES : LTC_MP_NO) : LTC_MP_NO)
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#define mp_exch(a, b) do { void *ABC__tmp = a; a = b; b = ABC__tmp; } while(0)
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#define mp_tohex(a, b) mp_toradix(a, b, 16)
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#define mp_rand(a, b) ltc_mp.rand(a, b)
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#endif
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/* $Source$ */
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/* $Revision$ */
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/* $Date$ */
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