/* NN.H - header file for NN.C */ /* Copyright (C) RSA Laboratories, a division of RSA Data Security, Inc., created 1991. All rights reserved. */ /* Type definitions. */ typedef UINT4 NN_DIGIT; typedef UINT2 NN_HALF_DIGIT; /* Constants. Note: MAX_NN_DIGITS is long enough to hold any RSA modulus, plus one more digit as required by R_GeneratePEMKeys (for n and phiN, whose lengths must be even). All natural numbers have at most MAX_NN_DIGITS digits, except for double-length intermediate values in NN_Mult (t), NN_ModMult (t), NN_ModInv (w), and NN_Div (c). */ /* Length of digit in bits */ #define NN_DIGIT_BITS 32 #define NN_HALF_DIGIT_BITS 16 /* Length of digit in bytes */ #define NN_DIGIT_LEN (NN_DIGIT_BITS / 8) /* Maximum length in digits */ #define MAX_NN_DIGITS \ ((MAX_RSA_MODULUS_LEN + NN_DIGIT_LEN - 1) / NN_DIGIT_LEN + 1) /* Maximum digits */ #define MAX_NN_DIGIT 0xffffffff #define MAX_NN_HALF_DIGIT 0xffff /* Macros. */ #define LOW_HALF(x) ((x) & MAX_NN_HALF_DIGIT) #define HIGH_HALF(x) (((x) >> NN_HALF_DIGIT_BITS) & MAX_NN_HALF_DIGIT) #define TO_HIGH_HALF(x) (((NN_DIGIT)(x)) << NN_HALF_DIGIT_BITS) #define DIGIT_MSB(x) (unsigned int)(((x) >> (NN_DIGIT_BITS - 1)) & 1) #define DIGIT_2MSB(x) (unsigned int)(((x) >> (NN_DIGIT_BITS - 2)) & 3) /* CONVERSIONS NN_Decode (a, digits, b, len) Decodes character string b into a. NN_Encode (a, len, b, digits) Encodes a into character string b. ASSIGNMENTS NN_Assign (a, b, digits) Assigns a = b. NN_ASSIGN_DIGIT (a, b, digits) Assigns a = b, where b is a digit. NN_AssignZero (a, b, digits) Assigns a = 0. NN_Assign2Exp (a, b, digits) Assigns a = 2^b. ARITHMETIC OPERATIONS NN_Add (a, b, c, digits) Computes a = b + c. NN_Sub (a, b, c, digits) Computes a = b - c. NN_Mult (a, b, c, digits) Computes a = b * c. NN_LShift (a, b, c, digits) Computes a = b * 2^c. NN_RShift (a, b, c, digits) Computes a = b / 2^c. NN_Div (a, b, c, cDigits, d, dDigits) Computes a = c div d and b = c mod d. NUMBER THEORY NN_Mod (a, b, bDigits, c, cDigits) Computes a = b mod c. NN_ModMult (a, b, c, d, digits) Computes a = b * c mod d. NN_ModExp (a, b, c, cDigits, d, dDigits) Computes a = b^c mod d. NN_ModInv (a, b, c, digits) Computes a = 1/b mod c. NN_Gcd (a, b, c, digits) Computes a = gcd (b, c). OTHER OPERATIONS NN_EVEN (a, digits) Returns 1 iff a is even. NN_Cmp (a, b, digits) Returns sign of a - b. NN_EQUAL (a, digits) Returns 1 iff a = b. NN_Zero (a, digits) Returns 1 iff a = 0. NN_Digits (a, digits) Returns significant length of a in digits. NN_Bits (a, digits) Returns significant length of a in bits. */ void NN_Decode PROTO_LIST ((NN_DIGIT *, unsigned int, unsigned char *, unsigned int)); void NN_Encode PROTO_LIST ((unsigned char *, unsigned int, NN_DIGIT *, unsigned int)); void NN_Assign PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, unsigned int)); void NN_AssignZero PROTO_LIST ((NN_DIGIT *, unsigned int)); void NN_Assign2Exp PROTO_LIST ((NN_DIGIT *, unsigned int, unsigned int)); NN_DIGIT NN_Add PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, NN_DIGIT *, unsigned int)); NN_DIGIT NN_Sub PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, NN_DIGIT *, unsigned int)); void NN_Mult PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, NN_DIGIT *, unsigned int)); void NN_Div PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, NN_DIGIT *, unsigned int, NN_DIGIT *, unsigned int)); NN_DIGIT NN_LShift PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, unsigned int, unsigned int)); NN_DIGIT NN_RShift PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, unsigned int, unsigned int)); void NN_Mod PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, unsigned int, NN_DIGIT *, unsigned int)); void NN_ModMult PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, NN_DIGIT *, NN_DIGIT *, unsigned int)); void NN_ModExp PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, NN_DIGIT *, unsigned int, NN_DIGIT *, unsigned int)); void NN_ModInv PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, NN_DIGIT *, unsigned int)); void NN_Gcd PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, NN_DIGIT *, unsigned int)); int NN_Cmp PROTO_LIST ((NN_DIGIT *, NN_DIGIT *, unsigned int)); int NN_Zero PROTO_LIST ((NN_DIGIT *, unsigned int)); unsigned int NN_Bits PROTO_LIST ((NN_DIGIT *, unsigned int)); unsigned int NN_Digits PROTO_LIST ((NN_DIGIT *, unsigned int)); #define NN_ASSIGN_DIGIT(a, b, digits) {NN_AssignZero (a, digits); a[0] = b;} #define NN_EQUAL(a, b, digits) (! NN_Cmp (a, b, digits)) #define NN_EVEN(a, digits) (((digits) == 0) || ! (a[0] & 1))